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COURSE ON- 



CARE OF TREES 

By 

G. H. ALLEN, B.S. 

TREE EXPERT 




BOSTON 
NATUREBUREAU 

Tremont Building 
Boston, Mass. 



^ 



Price $1.00 Per Copy 



Ki&KAKY ot 0tiMon£S5l| 
two OuDies riei;t!»i>j 




6P ^'ii 



INDEX 



LIFE AND GROWTH OF TREES 

LIFE 

Kinds 
Evolution 

GROWTH 

Flower and Seed 

Development 

Roots, Trunk and Crown 

COMMON TREES 

PLANTING 

WHAT TO PLANT AND WHERE 
HOW TO PLANT 

PRUNING, TREE SURGERY AND BOLTING 

COMMON DISEASES AND THEIR CONTROL 

POISONING 

INJURIES FROM HEAT 

INJURIES FROM COLD 

ABNORMAL MOISTURE SUPPLY 

ABNORMAL FOOD SUPPLY 

MECHANICAL INJURIES 

BACTERIA 

FUNGI 

INSECTS 



CARE OF TREES 



LIFE AND GROWTH OF TREES 
Life 

In taking up the discussion of the care of trees, the first things to con- 
sider are the anatomy and physiology of tree Hfe. We must understand the 
tree itsdf before we can intelligently care for it. We must know the con- 
ditions and environment most favorable to it and understand the food it needs 
and know how and where this is obtained. We must also know the way this 
food is assimilated and digested and changed over into tissue. And then, in 
order to preserve the health of the tree, we must also be familiar with the 
enemies which attack it, and it is necessary to understand the enemies in order 
to combat and overcome them. 

How does a tree grow and why? Life is truly a wonderful thing. We 
seldom consider how wonderful, and even when we allow ourselves to ponder 
on this great subject, or study it carefully and intelligently, we are wholly 
unable to grasp the wonders and marvels and magnitude of it. The subject is 
unquestionably so much greater and so far beyond our comprehension that we 
are only faintly able to realize its meaning and feel that we are only a part of 
it, an important part to be sure, but still only a manifestation of it. 

And yet, in us, life is so highly developed that we may intelligently think 
and consider and study the great laws of life, that same life which renders us 
the very privilege of living and experiencing and thinking. 

Kinds of Life 

At once we find that everything which comes within the source of our 
knowledge may be classed under two heads — those things which are animate, 
and those which are inanimate. Those which are animate are composed of 
those which are or have been inanimate and they will finally return again to 
the inanimate state. Therefore, everything animat depends upon things inani- 
mate. 

Again, we find that everything animate is divided into two great divi- 
sions or kingdoms, the animal kingdom and the vegetable kingdom. 

Starting with the highest types of each kingdom — man on one side and 
trees on the other — and working down through the succession of lower forms 
of life from which they have been developed by the progress of evolution, we 
find that the two lines approach each other more and more the lower we go. 

That is to say, there is less difference between the lower specimens of ani- 
mal life and vegetable life than there is between men and trees. Finally, if we 
go back far enough we find living organisms which we are unable to classify 
as either animals or vegetables. 

In other words, the two lines have approached each other and finally met, 
which means that animals and vegetables originated from the same source. 



In this ca!,5 ^e have followed the lines backward ; but the most logical way 
is to begin with the lowest orders of life and then work up, just as the de- 
velopment was made in the history of progress. 

Evolution 

In the lowest forms of life a single cell is able to perform all the functions 
A one-celled organism merely consists of a mass of protoplasm containing a 
nucleus surrounded by a cell wall. The organism breathes, feeds, digests its 
food, throws off the waste and reproduces itself all in one tiny microscopic cell. 

The first step of progress occurs when a group of connected cells learn to 
live together like a sort of family, but each still performing all the duties of its 
own life. Then occurs an important and economic step of evolution. This 
family learns that it can live better and far more easily if the duties of life 
are divided among the different cells. Each cell or group of cells undertakes 
certain chores. Some procure the fool for the family, some prepare and 
cook the food, some dispose of the garbage, and others spend their time in 
rearing children. As they are then able to devote all their time and energy to 
their special tasks they soon learn to do them belter and accomplish better 
results. 

This differentiation of tissues for the purpose of specializing, is the key- 
note of evolution and as a result of it trees as well as men possess wonderful 
anatomies with highly developed tissues and organs. 

Referring again to the lower forms of life, the organisms soon learned that 
they must procure their food in one of two forms, either in a soluble condition 
or an insoluble condition; and the choice of these two methods was another 
very vital step in evolution, for upon the result of the decision rested the future 
adjustment of the animal and the vegetable kingdoms. Those organisms which 
learned to engulf their food in an insoluble form and to make it available in- 
ternally were the progenitors of the animal kingdom. By further specialization 
of tissues, acquired by necessity, they soon developed the characteristics of ani- 
mals, and, as their food would not come to them in an insoluble form, they were 
forced to develop means of locomotion by which they could go in search of it. 

On the other hand, those organisms which learned to take their food in 
solution developed roots and root systems and other characteristics of vege- 
tables. Moreover, as their soluble food was brought to them there was not a 
sufficient need of locomotion to develop the means of it, and therefore they 
adapted themselves to a sedentary life. 

Throughout the long ages the results of evolution were becoming more 
and more marvelous. The progress, born of necessity and occasionally of 
accident even, continued slowly but surely. During the different periods, many 
side branches arose as diverting lines of progress and the success of these was 
worked out in each case by the principles of "breeding by selection." That is, 
if the specimens produced by each diverting line were able to successfully per- 
form their functions and successfully cope with the difficulties and enemies en- 
countered, they continued to prosper, and their offspring found an easier exist- 
ence. The origination of these diverting lines and the amount of success which 
attended their progress is represented by the various kinds of plant life which 
we find about us today, and each peculiar member of the vegetable kingdom 
tells us of an offshoot somewhere in the history of progress. 

The various offshoots were not equally successful. The paths which some 
chose were not as easy to travel as others, and the difficulties they encountered 
retarded their progress; but the existence continued in every line which is 
represented by living specimens today, and the fact that any specimen of the 
vegetable kingdom is of a high order or a low order of plant life tells us some- 
thing of the story of obstacles which have made war against its progress. 



Thus, the different forms of bacteria branched off at the bottom of the 
ladder and never proceeded any farther on the journey. The higher forms 
mav have developed from some enterprising or fortunate kind of bacteria, or 
they may have started from some lower point on the ladder. 

The mushrooms and other fungi were unable to proceed very far because 
of the lack of chlorophyll or green, starch-producing matter. 

The mosses fell far short of the grasses in their progress; and the grasses 
were unable to ascend higher on the ladder because they only provided them- 
selves with terminal buds and neglected to add the lateral buds which would 
permit branching. 

Of course, many of the diverting lines were finally unsuccessful and con- 
sequently died out. We have learned of some of these through fossil remains 
discovered in prehistoric strata. 

The trees which we have today are the results of very successful progress. 
Evolution has by no means ceased, however, and man is learning to aid nature 
and direct the lines of progress into the most propitious channels in order to 
hasten evolution and force the vegetable kingdom to yield him a more bountiful 
supply of improved productions. 

Some knowledge of evolution is most appropriate to the study of the life 
and growth of trees, just as English history previous to year 1776 is truly the 
history of the American people, and necessary for an understanding of existing 
conditions. 

Growth 

Every organic growth is made up of cells. Those cells in a tree which 
compose the tissues and organs of reproduction have become highly specialized. 
They are represented by the fruit buds, which develop the flowers, fruits and 
seeds. 

Flower and Seed 

The flowers may appear singly or in groups. The individual, complete 
flower is really a system, composed of four sets of organs, which are in reality 
modified leaves. They are the calyx, the corolla, the stamens and the pistils. 

The calyx is composed of several sepals, usually green and their function 
is to serve as a protection to the flower previous to the development of the 

fruit bud. 

Just inside the calyx is the crolla composed usually of several parts called 
petals. These serve as a protection to the stamens and pistils after the flower 
has opened. The corolla is generally colored to attract insects so that the pollen 
may be distributed and the blossoms fertilized. 

These stamens lie just inside of the corolla and each is composed of two 
parts. The filament, or anther stem supports the anther which produces the 

pollen. 

In the centre of the stamens are arranged the pistils which usually unite 
into one. A pistil is made up of three parts, the upper of which is the stigma. 
This is usually flat and sticky in order to receive the pollen. The stigma is sup- 
ported by the style which connects it with the ovary, a hollow pod containing 
ovules. The ovules are minute undeveloped seeds. When the pollen alights 
on the stigma a tiny filament, containing protoplasm starts out from the under 
part of the pollen grain and grows down through the stigma and style into 
the ovary and ovules, and when the ovules receive this protoplasm from the 
pollen they develop into seeds. 

This action is called fertilization, and generally takes place between the 
pollen grain of one flower and the ovules of another rather than between the 
parts of the same flower. Generally the infloresence is not composed of perfect 



flowers, and most trees have two kinds of blossoms. The male or staminate 
flowers produce the pollen, which is carried by the wind, the bees, and other 
agencies, to the female or pistilate flowers. Those trees which produce both 
kinds of blossoms on the same specimen are called monoecious (meaning one 
household). 

Other trees have a more complete differentiation, so that all the blossoms 
on one specimen may be staminate flowers, while all the blossoms on another 
are pistillate. Such trees are called dioecious (meaning two households). If we 
examine the maples just after blossoming time, we find the ground covered with 
fallen staminate flowers which have done their work and been discarded. But 
the pistillate flowers remain upon the trees. The corollas become withered, 
but the ovaries continue to develop the seeds. 

The fruit is the ripe ovary and pistil. It contains the seeds and furnishes 
nourishment as an inducement to birds and animals in order that the seeds 
may be scattered. Fruits are developed in many different ways and according 
to the methods of development they take on various characteristics such as 
the fleshy fruits, like apples and berries; the stone fruits, like peaches and 
cherries ; the nuts : the pod fruits ; the legumes, like the peas and beans of lo- 
custs and yellow wood ; the key fruits, like the maple seeds ; and the cone fruits, 
like the pine seeds. 

The ripened ovules or seeds contain the young plants in embryo, together with 
starch, albumen or oil, which serve as nourishment at the time of germination 
until the young roots are produced. 

When the grain of pollen from anther drops upon a stigma and the fiila- 
ment is sent down into the ovule, the tiny drop of protoplasm creates a spark 
of life in the ovule and a single microscopic cell is formed. This grows and 
finally divides until two united cells are formed each with its cell wall, con- 
taining a, drop of protoplasm, that mysterious solution of minerals which seems 
to be the fire of life; and floating in the protoplasm is the nucleus which seems 
to be the very essence of life. 

One of the parts is to become the root system of the young plant and the 
other part is to become the stem and crown. The cells continue to multiply 
in all directions and thus the embryo is developed. 

Development 

When the seed falls to the ground and germination takes place, the seed 
leaves, or cotyledons, unfold and a tiny bud, the plumule, appears which forms 
the first real leaves, and at the same time the first small rootlets begin to reach 
down for moisture and plant food. Thus we have the tiny tree well under 
way and through its different agencies it continues to grow. All the terminal 
cells elongate until they divide forming new terminal cells, and this process, ' 
untirmgly continued millions of times, gives height to the tree. At the same 
time the outside cells divide laterally so that new layers of cells are continually 
being added and thus the tree grows in width. 

At intervals certain groups of cells form themselves into leaf buds which 
IS another direct manifestation of the differentiation of tissues. As these de- 
velop into leaves and twigs, young new buds form at the points of union be- 
tween the leaves and the twig and it is these buds, which develop the follow- 
mg year, that give to the tree its methods of branching. Those plants which 
do not have these buds formed at the axils of the leaves never have any 
branches but remain as straight stocks. 

Roots, Trunk and Crown 

The parts of a tree may be grouped into three classes, the roots, the trunk 
and the crown. 



The roots serve two purposes. They hold the tree in place and procure mo.s- 

ure and mineral substance from the soil. They reach out in all directions and 

-!ke a firm hold upon the soil, and it is very necessary that a large heavy 

Lrunk reaching far into the air is firmly anchored, or it will soon be pulled 

down by gravity and heavy gales. ,, j- • j- 

These roots ramify through the soil in every direction repeatedly dividing 
and sub-dividing until almost every particle of soil beneath the tree has been 
pierced by the tiny hair rootlets. It is these minute threads that take up the 
Listure and mineral food by absorption, which as has been previously ex- 
planed is the characteristic method of feeding the vegetable kingdom. 

It is one of the laws of nature that all the soluble ingredients of a liquid 
tend to become distributed evenly throughout the liquid. Thus when the roots 
have utilized the soluble plant food from the moisture near them, other food 
is passed into their vicinity through the moisture in the soil Generally, how- 
ever, the roots obtain all the soil food they require from the moisture which 

thev actually take up. . . , e 

I The principle of osmosis by which roots actually take in substances from 
ithe soil is very peculiar and extremely interesting. As a demonstration solu- 
i'tions, such as molasses or salts may be confined in certain membranes through 
which they cannot pass even under pressure, and yet, if there is a liquid on the 
other side of the membrane the solution will readily pass through the mem- 
brane until the liquid on either side is equally rich in the solution. This action 
is called osmosis or dialysis and by this means the mmeral foods of plants are 
I passed into the roots. Osmosis also occurs constantly throughout other parts 

r^ ^Therfis a peculiar relation existing between the roots of some trees and 
•1 a certain low order of fungi called mycorhiza. The beeches, oaks ocusts 

ing its food from the tree, cannot be classed as a parasite. I^hves under a sor 
of contract relation with the tree. Each is of -^^^^^^^^^^^^^^^^t fingus 
i pays for what it obtains by rendering valuable service ' ^ f "J"; f ^Vstafch 

^nd "Se^ed frord.ying. Otherwise, the trees »m die fron, starvation after 



Th"r here is a sort of mystery regarding the way moistu e .s carr d o 
the loo of a very tall tree. There are several princples of physics that un- 
doubtedly help Capillary attraetion (that action which occurs when otl creeps 

r.,'ri;;;;i7,™-i;. ',;..■:. T."i5.-d..ii.:.. .... .■..., —. 



da/ so^e ider'„^rir';;;"rs Viz i%'"r.H"%°" ^ "" 

acre of hay on a hot s„„,„,er day over o,'e hTndredZs of "^ ""' 

and ahou, ,wo hundred and «.y gallons fron, a large dm "« " '"'""''"^ 

waJtd'ie?:, f*diror.rro:f:rj:;? a"°"" r ^t"- ^' -"^ 

digested nourishment from ."e crown I^is^n, "T','"^ "" ™'' "'* 
bark and wood. The inner bar oT cam imHhr film o7'" '"'• '""" 
which completely envelopes the roofs, .rn,,i; d h an hes"of aTet'L"' Vh' 
the excepfon of the leaves and a few other tissues is the only pa of "he 7r' 

cells'^hic^tZe'thrXf hal ^d ':^\ '"" ™'". '"^ '°™^ -* 
^ ^ 1 , uuier odFK and serve as a protective rovprJno- Ti,; 

become tlnckened on the inner side with deposits Jf c lutse and "us^t e 
,ss„e changes tnto wood. In this way a layer or ring of Zi i ad d e eh 

r:.r^":::s:^';f = Xst-n-n li^- -- - - -- 

:^cir:ra;r- z:r i— ,. ^o?^er;:^r£i?r?^ 

Certain mineral substances of the soil are required hv fhp fr.« • k . . 

L-Lrai' rt::: inZti:::^' --- -- -- -Ch;- 3 

Nitrogen tends to produce woody tissue Tf {<; th^ «,^cf • 
most costly of all th^ for^H= t^u • "^°^^ important and the 

soth so tha. the plant may obtain it. Most plaMs however are „,.",' inab 

z^2:^rz^ri f^rii'iL:^' ' -' = ^— - -™-"" - 
.be J^r^- :^r;:r;rr:::^r:i;:::r-d::f ^' -- -^ '- 

i^otash ,s very necessary in the formation of starch. The actinic rav^ of 
sunhght act upon the potassium in the leaf in somewhat the sa n way as upon 
a photographic plate in a camera. This action is called photosynthe's The ac 
tive principle in the leaf which brings this about is the chlorophyll o 'green co- 

:rd r ;:: -t ptdir ^" '''-' '- ''- ^-'^ °^ -- ^-^^^^ p--^ -X 

wnri?f' '''i°M ''■^ P'^°t°^y»thesis is one of the most vital processes in our 
world for while it occurs in the vegetable kingdom, the animal kingdom abso 
lately depends upon it for its existence. Animals require proteids caTbo hv 
drates and hydro-carbons. The carbo-hydrates or starches and sugar must' 
be obtained from vegetable life where they are produced by the actLn of Tun 
hght on chlorophyll Moreover, the proteids or nitrogenous substances and the 
hydro-carbons, or fats and oils, are all composed of nitrogen. Animals canno 
take this in the mineral form from the soil, and depend u'pon planet chang 



10 



this nitrogen into a vegetable form, which could not be done without chlorophyll 

'"' fhraStion otphotosynthesis may be plainly demonstrated by actually taking 
pictures on leaves. During daylight starch is formed in the eaf and durmg the 
night this starch is transformed into sugar and made soluble. In he morn.ng 
^ere is Httle or no starch in the leaf, and if a camera negative is placed upon a 
ea a^his time, when the sun shines down through the tlnn portions of the 
negatt starch will be formed. Then if the leaf is treated with solutions of 
"odide this starch becomes stained and the picture is produced and may be pre- 

served in formalin. . . i 4. c*.,^-.i. 

In this process of starch formation the potassium is merely an agent. Starch 
. CO poecf mostly of carbon. In fact, the great bulk of the tree-all that may 
be consumed by fire-is composed of carbon, and this is obtained from the air. 
In sZ^l the chlorophyll breaks up the carbonic acid gas. retaining the carbon 

?, r -yr, :;=..s :r ~vr r,,"i ;;.';=; 
i's,.; -" .<., .<- .-; - "r;is..t:~— s 

the part ot the tree. In .h,s w y n ex ss o' *lorop y ^ ^^^^^ 



u 



.ha, marvelous and mysterious something which we call iTe! ' "^ 

COMMON TREES 

informaLt'"" """ ""' '"™'" '° '""'='' ^^-'^^ ^-"^P'-- "r classified 

tudv andT' '■''" '"^""^ "'" ^^ ^^°"^^^ -hich will lead to a deepe 

study and a genuine interest and love for beautiful trees. 

OAK 

and zp. '\nsr„rch v/r '^d w!r;L;re.rrnr;;„rrr;h^ 

open. Though generally considered to be of slow growth this chr^/-. 
is not usiiallv trn^ Ti, uv i growtn, tnis characteristic 

White oT:t™oar::^'^:re^,r.-r::°ti:^-^^^^^^^^ 

ne. rj;^-^: /- r -fd rcUi„;='L --tr 

and the oaks are able to stand battle for centuries; <;,.„, i '°'^^^^'^' 

hefo^° het?h"ver T,'"^' "" T' '° ""'""' "" '™™= "' -M"" torne 

;he,ess z;t^i.^:!:T:z::-!::-^, "T.:tr.s oT;;:; 

Landscape gardeners fully appreciate this fact and act accordingly '' 

1 he oaks are divided into two groups Those of thp whif. ^u 
round d lobed leaves and b.osson. ^. th^ spring be:Hng%:o:s t faZ yt7 
Thus they are annuals. Those of the red oak group have pointed lobed leaves 
and their acorns are not ripe until the autumn of the year following thar" 
which they flower. Therefore, they are true biennials. There are Z d ffe e'^ 
varieties o oaks and fifty of then, are found in North Ame ir Mos^ o h 

cert i^^f the' '^ '"^ "^ ''' °^^^" ^°"^"^^^ ^ ^° ^^eir nal u 

wh cl thev n r TT" '"*"''" ""''' ^^'■^ characteristic markings by 
wnich they may be easily distinguished. ^ 

n., ,u WHITE OAK. 

Quercus alba. 

This tree receives its name from the color of its bark, which is gray or 

grayish white, and broken into rough scales. It is generally a tall tree and 

r thl aur^i"" "--"^-^^PP^d head. The leaves are long and round "on ed 

n the autumn they turn a rich, purple red. Because of its value as a timber 

tree the white oak is fast disappearing. It will grow on most any good soil 

Quercus plantanoides. ^"^^""^ ^^^^^ ^AK. 

The swamp white oak branches very near the ground, and the bark is more 
deeply fissured than that of the white oak. Especially on its branches, the old 



12 



bark peels away, and altogether this tree is straggly and careless of its appear- 
ance. It loves the swamps and low, wet lands. The young leaves are greenish 
bronze, and in the autumn the old leaves turn dull yellow, showing no markings 
of red. 

CHESTNUT OAK. 
Quercus prinus. 

This has a very rough bark with something of the hobbly appearance of 
tupelo bark. The serration of its leaves is not unsimilar to that of chestnut 
leaves. The chestnut oak is generally found on high land and rocky hillsides, 
but it also does well in low, wet soils. It is not a particularly beautiful tree and 
is of very slow growth and unimportant for timber. 

RED OAK. 
Quercus rubra. 

The bark of the red oak is dark and somewhat smooth in appearance. The 
old bark is more or less roughened with broad ridges, but these have smooth 
areas between them, and the young bark is distinctly smooth. The tree forms 
a beautiful rounded head and is very stately. The leaves may be either broad 
or narrow, but the end of each lobe is sharply pointed. When very young, they 
are pinkish and downy. In the fall, they become dark red or russet, and remain 
on the tree until late in the winter. The acorns are very large. The red oak 
will thrive on a variety of soils, and grows quite as rapidly as most of our native 
trees. It is an excellent tree for planting. 

BLACK OAK. 
Quercus velutina. 

The outer bark of the black oak is dark and very rough, even on young 
trees, but the inner bark is bright yellow. The leaves are deeply cut and the 
lobes narrow with sharp ends. In the early spring they are crimson and downy, 
and in the autumn they are brown or dull red, sometimes showing yellow. The 
leaves remain on the trees very late, many of them until spring, when they are 
forced off by the new buds. This is more or less true of all the red oak group. 

SCARLET OAK. 
Quercus coccinea. 

This tree is more upright than the other oaks, and prefers dry, sandy soil. 
Its bark is less even than that of the red oak, but not so rough as that of the 
black oak. The outer bark is dark brown and the inner bark is reddish gray. 
The scarlet oak receives its name from the brilliancy of its coloring in the 
autumn. The flowers also are somewhat scarlet. It is beautiful at all seasons 
and a favorite ornamental tree. 

PIN OAK. 
Quercus palustris. 

This is a high tree forming a straight, upright leader. The branches are 
close and regularly arranged, but fine, so that they escape being ungraceful. The 
small twigs somewhat resemble pins, although this comparison requires consid- 
erable imagination. The most striking characteristic of the tree is the very 
noticeable drooping of its lower branches. For this reason, although very beau- 
tiful for lawn planting, it is not desirable for city streets. When old, the lower 
branches die, and then the tree is not so graceful as when young. In winter the 
buds of the pin oak are very small. The leaves also are small and deeply cut 
with sharply pointed lobes. In the autumn they turn deep scarlet. The root 
system is deep when standing in dry soils, but it needs low, moist land with 
rich earth for its best development. The pin oak is one of tbe most desirable 
trees for lawn and park planting. 

13 



^ BEECH 

ragus atropunicea. 

Among our American trees, the beech holds a place of its own. It may well 
be called elegant. With its closely fitting bark and carefully arranged leaves 
and tw.gs ,t ,s very dressy and well groomed. Clean and dainty in winter, rich 
and beautifully clad m its finely woven foliage in summer, and carefully retaining 
Its dehcate pale yellow leaves in the late fall, it is very genteel and attractive 
in every season. Everyone is fond of the beech for its neat, ladylike grace and 
.t truly seems impossible for lovers to pass a beech without leaving their initials 
carved upon the trunk, although such thoughtless marring is to be deplored 
The trunk appears to be corded, and the bark resembles the skin of an athlete 
tightly drawn over powerful muscles. The Indians firmly believed the beech 
was a safe refuge from lightning, and they were correct. Owing to the oils or 
fats which are contained in the tree, lightning is repelled. This is also more or 
less true of the chestnut, linden, and birch. The red or copper beech is not a 
separate variety from the green leaved beech. The difference seems to be in the 
color alone. When young, beeches are tolerant of shade, and they make an 
excellent forest undergrowth, but later demand light, and often crowd out the 
other trees so that a clear stand of beech prevails. In order to produce its most 
perfect type, plenty of room should be allowed for development The beech 
needs a well drained soil, but it thrives both on highlands and in rich lowlands 
and does especially well on limestone soils. 

^ , J CHESTNUT. 

Castanea dentata. 

The chestnut tree is a general favorite, both for the tree itself and also 
because of its fruit. It does not blossom until midsummer, after the fruit of 
many trees has come and gone. The shade is unusually deep because of the 
richness of its foliage, and the wood is valuable. The tree grows rapidly and 
lives to a great age. some fine specimens being known to have lived over i ooo 
years. The famous Chestnut of a Hundred Horsemen on Mt .^tna in Sicily 
is over 60 feet in diameter at the base and has a road passing through it In 
this country the chestnut has recently been attacked by a fungous disease which 
works under the bark so that it cannot be controlled, and we are obliged to 
remain helpless and watch grand old veterans die before our eyes. It looks 
as though the American chestnuts were doomed, and in a very few years they 
may be a thing of the past. 

^ . WHITE ASH. 

rraxinus Americana. 

The white ash is an excellent tree for city planting, owing to its tremendous 
root system, which permits it to thrive in dry places. It will, however, do well 
in moist soils, and sometimes swamps may be drained by planting ash trees 
because the roots are able to extract such large amounts of water. This tree is 
devoid of delicate twigs and is therefore stiff and lacking in grace during the 
winter. In summer, however, it is beautiful, as the leaves are compound and 
gracefully clothe the rugged limbs. The ash is a member of the olive family 
The wood is light and strong, and, like the oak, it is often struck by lightning. 
It is also said that snakes will not come to the vicinity of an ash tr'ee. Its 
autumn coloring is rich in bronze, chocolate and yellow, but never in crimson 
and scarlet. 

^ . RED ASH. 

Fraxinus pennsylvanica. 

This tree is usually low, seldom growing over fifty feet in height. The 
trunk and limbs are thick set and sturdy. In general appearance it is similar 

14 



to the white ash, but the bark is dark and the leaves are less serrate, having 
a wavy rather than a notched outline. The leaves and branches are sometimes 

downy, but not always. 

MAPLE 

One of the most widely distributed of our native trees is the maple. It is 
a valuable forest tree and enjoys both shade and light, which is the reason for 
its abundance All the varieties are rapid growers, which fact makes them valu- 
able for planting, and in the autumn, the splendor of their foliage does much 
toward making the landscape radiant. The maples p-ob^blv came ongmally from 

^'"^P"*"' SUGAR MAPLE 

Acer saccharum. 

Most of our maple sugar comes from the sugar maple or rock maple. The 
removal of sap does not injure the trees. Some maples have given sap for over 
a century and are still in their prime. The sugar maple is an unusually fine tree 
for avenue planting. In the autumn it is rich with yellow and reddish orange 
coloring. The buds in winter are very sharply pointed. The old bark has curlmg 
ridges somewhat resembling the broken furrows of a plow-sbare, but not ar- 
ranged regularly. The beautiful bird's-eye maple wood appears in all the maples. 
There are no definite outward markings to show that these trees have the pecu- 
liar curly grain, although some expert treesmen can generally recognize such 
trees while they are growing. Probably the bird's-eye effect is due to dormant 
buds which remain alive long enough to establish a grain in the wood, although 
it may be due merely to physiological conditions. 

RED MAPLE. 
Acer rubrum. 

This variety loves the swamps. In many places it is not as beautiful as the 
sugar maple and it is not generally as satisfactory for street planting. For col- 
oring however, the red maple excels all others. At the end of winter the garnet 
buds 'shine out like tiny eyes. In the spring the young leaves are red, and the 
red wings of the keys swing on graceful stems. Early in September, the trees 
become glowing masses of flame, and their gorgeous beauty may be seen for 
miles The leaves of the red maple vary greatly, either on two neighboring trees 
or on the same tree. They may be large or small, thick or thin, three lobed 

°'" ^^' ^°^'^- SILVER MAPLE. 

Acer saccharinum. 

These also prefer low ground and love the banks of quiet streams deep in 
the solitude of the woods, being not frequently found near towns and cities 
except under cultivation. They can also thrive on dry soil, but should not be 
planted on high ground. With their shaggy bark and deeply cut leaves, the sil- 
ver maples are graceful and attractive as well as being rapid growers, but they 
are not good trees to select for planting, as the branches are not strongly 
attached to the trees and the wood is very easily broken by winds and ice storms. 
Moreover the trees are very subject to borers, especially when planted on city 
streets where moisture is lacking. One particularly beautiful and fast growing 
variety, which may be planted in moist soils when a quick effect is desired, is 
known as Wier's Cut-Leaf Maple. 

NORWAY MAPLE. 
Acer platanoides. 

The Norway maple is an imported tree. It has a very deep root system 
which renders it especially appropriate for city planting. The leaves are dark 
green and form a beautiful contrast against the very dark, closely knit bark. 
This tree may be easily distinguished by the white, milky sap which exudes from 

15 



the petioles or leaf stems when tliey are broken. One of the Norway maples 
called the Swerdler Maple, has leaves of a rich, reddish bronze color in the 
spring. ^ 

SYCAMORE MAPLE. 
Acer pseudo-platanus. 

This is one of the most beautiful of the European maples. It is character- 
ized m vvinter by its very green buds. The bark loosens and falls in thin, square 
Hakes. The leaves of the sycamore maple are similar to those of the Norway 
maple, but they have larger lobes and often slightly resemble the leaves of the 
grape vme. 

BOX ELDER OR ASH-LEAVED MAPLE 
Acer negundo. 

Strange to say, this maple has compound leaves, and if it were not for the 
keys or wmged seeds, we should never recognize the species. When young it 
sometmies forks near the ground, in which case it greatly resembles the peach 
tree m ,ts method of branchin. The leaves are similar to those of the ash and 
when old the bark somewhat resembles that of the ash. Altogether it is an odd 
and attractive variety, but like the linden it is a dirty tree and continually covers 
the ground with debris. It is hardy, however, and makes a very rapid growth 
and IS very plentiful in the prairie states. 

MOOSEWOOD OR STRIPED MAPLE. 
Liriodendron tulipifera. 

This small, shade loving tree is especially attractive in winter when the 
striped green and white of its bark is brought into prominence. The leaves have 
a peculiar shape, being broadest at the outer ends. 

LIRIODENDRON OR TULIP TREE. 
Liriodendron tulipifera. 

The Liriodendron is one of the most beautiful of our native trees It 
prefers deep, rich and rather moist soil, and grows fairly rapidly It is a soli- 
tary tree and symmetrical. Tulips have been known to grow nearly two 
hundred feet in height, probably ninety feet is about the average This is 
the tree that furnishes the white wood so much used in carving. In the early 
settlement days, when tulip wood was plentiful, it was much used for construc- 
tion, and in some of the older rural communities such as Sharon, Conn, nearly 
every one of the olden time houses was built largely of tulip wood and many 
Jn^n T"" .'''" '° '^'' ^'^- ^^' ^^^^'■^ °^ ^he liriodendron closely re 

tuHn. ^"!''''/ k7'" '^' °"'""' "^ '^' ^''"'' '^ ^"^^-^'^ °f the profile of 
tulips. 1 his tree belongs to the magnolia family. 

SWAMP MAGNOLIA. 

Magnolia glauca. 

We must speak of another member of the same family to which the Lirio- 
dendron belongs. The Swamp Magnolia ranks with the finest of our native 
trees. It is a southern species, but strange to say, it is found growing natur- 
ttn"^/.! 1 '^''''"'P°"^'P' ^""' "'^' Gloucester. Massachusetts, al- 

heltere 1 nl '"• "It ""' 7"^"'" '^'''- ^' ^^" ^' ^■■°^" '" ^^^er moist and 
sheltered places in the north. 

T,.,. LINDEN. 

1 ilia europaea. 

Tilia americana. 

There are several kinds of lindens but the two best known are the Ameri- 
can Linden or Basswood, and the European Linden, known in England as the 
Lime Tree. The lindens are excellent trees for planting in positions where 
they will have room for development. They are quick of growth and will 

i6 



stand severe pruning. Their foliage is abundant producing a very deep shade, 
and the branches droop very gracefully. The blossoms are favorite with bees 
and furnish extra fine honey The wood is soft and similar to that of the tulip 
and is often wrongly called white wood. Some lindens are known to be over 
looo years old. 

CANOE BIRCH OR PAPER BIRCH. 
Betula papyri f era. 

Many gardeners envy the birches the space they occupy, but no greater mis- 
take can be made. With their light, airy foliage and white bark they render 
a delightful and refreshing contrast against a background of darker trees. 
Birches are rapid growers and short lived, but very showy and we are indebted 
to Nature for them. The wood quickly decays if exposed to the weather, but 
the b-Tik is almost imperishable even when buried in the soil. Birch wood is 
beautiful indeed when stained and polished. It so closely resembles mahogany 
that the fact gives rise to much fraud in manufacturing, and its actual value 
as a beautiful wood should be fully recognized. It is the delight of children 
to strip the bark from Canoe Birches, but this renders the trees unsightly, and 
especially with specimen trees this stripping should never be permitted. To 
the woodsman, however, birch bark is very valuable for making many useful 
implements of woodcraft. The outer bark is creamy white and very attractive. 
These trees are best suited to rich, moist soil on hillsides. 

GRAY BIRCH. 
Betula populi folia. 

This has a grayish white bark which never peels off as does the bark of 
the Canoe birch. It also lacks the snowy whiteness of the latter. It may be eas- 
ily distinguished by the triangular black markings under the branches. The 
leaves somewhat resemble those of the poplar, trembling in the slightest breeze 
as do the Asepn leaves. The Gray Birch thrives in the dry barren soil of old 
fields or rocky woods. It plays an important part in reforestation, by spring- 
ing up where other trees cannot start, thus preparing the soil, and furnishing 
a shade for the seedlings of more valuable trees. 

BLACK BIRCH OR MAHOGANY BIRCH. 
Betula lenta. 

This is often called the Sweet Birch. The bark resembles that of the cherry. 
It is tall with a full head and very beautiful. When old, its bark cracks away 
from the trunk, but never peels. Its bark is nearly black and very aromatic. 
In the woods the Black Birch is most often found near mountain brooks. 

YELLOW BIRCH. 
Betula lutea. 

Though ragged, the Yellow Birch is not uncomely. In fact, a good speci- 
men of this tree will itself beautify a landscape picture. It has a sturdy 
trunk and is tall and stately with a broad round topped head and branches 
somewhat drooping. The outer bark is silvery, but this has a habit of peeling 
back into little curls revealing the richness of its golden undergarment. Like 
the other birches, it seeks moisture and does best on rich uplands. 

RED BIRCH OR RIVER BIRCH. 
Betula nigra. 

The Red Birch has a very shaggy and flaky appearance, owing to the loose- 
ness of its red bark which tears itself away from the trunk. This tree not only 
overhangs the water, but actually wades into the streams, and the graceful 
sweep of its drooping branches lends beauty to any woodland picture. 

WHITE BIRCH. 
Betula alba. 

This is a European tree often cultivated in this country. It has an erect 
leader and a singularly regular method of branching, especially for a birch. 

17 



The tree lifts its high, even head well into the air, but so delicate is the tracery 
of its slender drooping branches swaying pliantly in the faintest breeze that 
the effect is one of perfect grace and rare beauty. The bark at the ground is 
dark and roughened, but higher up it becomes smooth and clear, showing vary- 
ing tints of white and silver accentuated by occasional markings of black. 

IRONWOOD OR HOP HORNBEAM. 

Ostrya Virginia. 

The Ironwood is a small tree of slender growth. It is a member of the 
birch family, and its leaves resemble those of the birch. The clusters of its 
yellow-tinted fruit are attractive. The bark is finely furrowed and slightly 
shaggy. The wood is especially strong and its provincial name, Leverwood, 
is appropriate. The Ironwood is a solitary tree and rare in the forests, gener- 
ally growing on dry hillsides. It does well under cultivation, but should be 
protected by some shade. 

HORNBEAM OR BLUE BEECH. 
Carpinus caroliniana. 

In many localities the Hornbeam is very prevalent as an undergrowth of 
forests. Like its cousin, the Ironwood, it is a member of the birch family. It 
grows very slowly and never becomes a large tree. Under cultivation it does 
well if planted in deep, moist soil ; but the topping which is practiced on many 
trees at the time of transplanting should never be done on the Hornbeam, 
or its charcateristic method of growth will be destroyed. The bark is smooth, 
bluish gray, and generally uneven as if growing over smoothly rounded eleva- 
tions in the wood. 

BLACK WALNUT. 

Juglans nigra. 

Few trees are more grand than the Walnut. In rich soil with plenty of 
room for development, it makes a magnificent growth. With lower branches 
sweeping the ground and its upper ones reaching far aloft, the effect is fine and 
stately, and the foliage catches the sunlight in such a way that the result is a 
beautiful, golden glow. The leaves come out late in the spring and go early in 
the fall, but the summer effect is delightful. This tree has a deep root sys- 
tem and does not frequently suffer from drought, but it grows slowly. In the 
forests, it produces a different tpe, struggling straight upward with a small head 
and no branches below. Many leaf eating insects attack the foliage, and for 
this reason the tree requires attention when cultivated. 

BUTTERNUT OR WHITE WALNUT. 
Juglans cinerea. 

The Butternut is generally low, broad and unsymmetrical. Closely re- 
sembling the Black Walnut in many ways, it falls far short of it in regard to 
beauty, often becoming misshapen, and for this reason it is more appropriate 
in wild and unconventional places than for street and park planting. It will 
grow on hills if the soil is fertile, but does best on moist lowlands. Its deep 
roots protect it against sudden droughts and sometimes it is a desirable tree 
in private estates when rough, ragged effects are desired. 

SHAGBARK HICKORY. 

Hicoria ovata. 

The Hickories belong to the Walnut family and closely resemble them. 
The Shagbark Hickory is easily recognized by its loose bark which separates 
from the tree in long strips. Though willing to grow in constricted quarters, 
the Shagbark or Shellbark is most beautiful when permitted to develop a full, 
rounded head. It is especially beautiful in winter when its branches are very 

i8 



black and grotesque in their method of spreading. The wood .s valuable, being 
hght pliable and very tough. All the Hickories are distinctly native trees not 
being found in other countries. They possess dignity and beauty. Owing to a 
very large tap root, they are transplanted with some difficulty, and do best on 
deep soil which is rich and rather moist. 

PIGNUT. 
Hicoria glabra. 

While this name may be suitable to the fruit, it is unworthy of the tree, 
as the Pignut is beautiful and attractive. It is a tall tree even in the open, 
and when crowded by its neighbors, it serves an admirable illustration of the 
struggle for existence, climbing far aloft for sunlight. The bark clings closely 
and is covered with fine, curling fissures, and the tree has a peculiarly clean 
appearance. The compound leaves usually have fewer leaflets than those of 
the Shagbark. It is suited to the same soils. 

SASSAFRAS. 
Sassafras sassafras. 

This is an interesting tree because of its differently shaped leaves. Like 
the Mulberry, its leaves have a varying number of lobes or even no lobes, and 
these different kinds are found intermingled on the same branch or even on the 
same twig The Sassafras grows rapidly and in most any soil, but does best 
in rich earth which contains sufficient sand to keep it well drained. The bark 
is roughly furrowed and the tree is more picturesque than beautiful. New 
trees are formed by sprouts so easily that a thicket is generally produced about 
the parent. All the tissues of the tree are aromatic, and birds are especially 
fond of the berries. The Sassafras may be easily distinguished in winter by 
the green bark of its smaller branches and twigs. 

MULBERRY. 
Morns rubra. 
Morus alba. 
Morns nigra. , 

There are three varieties of the mulberry, the red mulberry, the white mul- 
berry, and the black mulberry. Each receives its name from the color of the 
fruit The mulberry is an interesting tree and is often recommended because of 
its rapid growth, but the leaves come late in the spring and the tree is ragged 
and unattractive in winter. The fruit of the black mulberry is delicious, and 
this tree may be planted if for no other reason. The white mulberry is the 
favorite food of silk worms, and is a native of China, where it has been reared 
for this purpose during thousands of years. Like the sassafras, the mulberry 
bears leaves of three different forms on the same branch, some being heart 
shaped, others having one lobe, while still others have two or even three lobes. 
The bark is reddish brown and very rough. The trunk is short and the branches 
are numerous, often producing a bushy effect. The mulberry grows rapidly, 
especially in rich soil. 

SYCAMORE OR PLANE TREE OR BUTTONWOOD. 

Platanus occidentalis. 

A fine old sycamore or buttonwood is very striking. The branches are 
rugged and somewhat stiff in appearance, but very picturesque. The mottled 
appearance of the branches and frequently the trunk is due to the fact that the 
tree sheds its bark as well as its leaves. The sycamore has great vigor and the 
leaves are large and broad, but in many parts of the country a fungous disease 
attacks and destroys the first leaves before they are fully grown, and in early 
June a second foliage is produced. We are unable to control this fungus, and, 
unless Mother Nature does so in the near future, the trees will eventually dis- 
appear. Many people do not care for the sycamore, but in our opinion it is a 



very attractive tree when at its best. It grows to a great height, sometimes 
dividing at the ground into several huge trunks. The mottled bark is valuable 
to the winter landscape. This tree prefers low, rich soil. 

POPLAR. 
Populus deltoides. 
Populus nigra italica. 

The poplars arc generally used for immediate effect. Several of the varieties 
are real ornaments under good conditions, and the cottonwood or Carolina pop- 
lar often makes an attractive tree in a short space of time. Moreover, its leaves 
keep clean and free of soot, which makes it valuable for street planting in dirty 
cities. The Lombardy poplar was formerly a favorite, but is now little used. 
It forms a spire-like head, and, if properly placed, may give character to a 
landscape, but the tree is coarse, having an excess of branches which grow 
upright following the line of the trunk. The lower branches quickly die and 
remain upon the tree. Lombardy poplars are sometimes used as a screen. In 
such cases several rows should be planted rather than a single row. They grow 
very rapidly, but soon become ragged and unsightly and more like tall weeds 
than trees. As forest trees, poplars were formerly considered of very little 
value, but now they are grown commercially on a large scale to supply those 
hungry demons, the paper pulp mills. 

LOCUST. 
Robinia pscudacacia. 

The locust is a tree well worthy of attention. While not particularly attrac- 
tive in winter, it is delightful in summer, possessing a light, airy and lofty grace 
which is charming. The blossoms are fragrant and the leaves are always green 
and free of dust. In wet weather and at night the leaves fold together, a general 
characteristic of the entire leguminous or pea family. Unfortunately, the locusts 
are very subject to borers, and in many communities the trees are never able to 
produce attractive specimens, but become ragged and unsightly. There seems to 
be no practical way of controlling this insect. The Kentucky coffee tree is often 
confused with the locust, but there is a marked difference. Like the Hercules 
club and the honey locust, the leaves of the Kentucky coffee tree are doubly 
compound, often three feet loiig and two feet broad, while the regular locust 
leaf is only singly compound. The Kentucky coffee tree has no thorns whatever. 
The honey locust has large thorns which arise from the wood. The Hercules 
club and the common locust both have small spines, but these are merely in the 
bark and do not originate in the wood, and cannot be considered as true thorns. 
The Hercules club, which is rare but unattractive, is not of the locust family. 

YELLOW-WOOD OR VIRGILIA. 
Cladrastis lutea. 

Though not well known in the eastern states, the yellow-wood is a beautiful 
ornamental tree and should be grown more frequently. The bark is smooth and 
greenish gray in color. The leaves are compound with smooth, oval leaflets, 
and in the autumn they are rich yellow. In June the tree is heavy with masses 
of white, drooping tlower clusters. The yellow-wood prefers rich, moist soil 
and grows rapidly. The trunk generally divides near the ground. 

HORSE CHESTNUT. 
Aesculus glabra. 

This tree is not beautiful in winter, the stiff twigs and large terminal buds 
being too evenly arranged. It does not grow wild in our northern states and 
has a hard time even under cultivation. Many people are especially fond of the 
horse chestnut. The flowers and leaves are beautiful in the spring, but in most 
localities the leaves are liable to the attack of a fungus which turns them brown 
and causes them to fall early in the summer. The horse chestnut is a solitary 
tree like the tulip, the elm, the willow, and the sycamore. The Ohio buckeye is 



a variety of this species and is so named because the brown scar on the nut 
resembles the eye of a deer. This is also somewhat true of the horse chestnut. 
The buckeye is a native, while the horse chestnut is European. If planted, the 
horse chestnut should be given good soil with plenty of moisture, as the tree 
quickly suffers in cases of drought. 

WITCH HAZEL. 
Hamamelis virginiana. 

Who has walked the woods in October, when Mother Nature was preparing 
the trees and shrubs for their winter sleep, without experiencing the surprise 
and pleasure of finding the witch hazel in full blossom? One might think this 
little tree very courageous to put forth its flowers in defiance of the signals of 
winter, but in truth it is a laggard, and not only arc its blossoms tardy, but the 
fruit is not borne until the following year. Thus it happens that the fruit and 
flowers are both on the tree at the same time, just as with the orange. When 
ripe, the seeds are discharged from their pods with considerable force, and car- 
ried several feet, as if glad to be freed from the tree at last. The witch hazel 
hardly deserves to be called a tree. It is rather a shrub, and loves the shade of 
taller trees. The leaves are oval and have a peculiar serration by which the 
tree may be easily distinguished after one has become familiar with it. 

LIQUIDAMBER, OR SWEET GUM. 
Liquidamber styraciflua. 

This tree with its starry, five-pointed leaves is to the South what the maple 
is to the north. It reaches as far north as southern Connecticut, and the 
autumnal coloring is superb, actually glowing with red, yellow and purple. The 
liquidamber has very characteristic corky ridges on the bark of its branches and 
twigs. It produces a large, erect trunk with somewhat slender branches. This 
tree should be planted more freely, and prefers low, moist soil, but will adapt 
itself to high, dry land. 

FLOWERING DOGWOOD. 
Cornus florida. 

This is the most attractive of the dogwoods. It is a low, bushy, shade loving 
tree with a flat head. In the spring it is covered with blossoms before the leaves 
come out, and the mass of snowy petals is one of the characteristic sights of the 
woodland scenery at that season. Later, its scarlet berries and dark red leaves 
do much to make the autumn brilliant. It prefers dry soil. 

TUPELO OR PEPPERIDGE OR SOUR GUM. 
Nyssa sylvatica. 

The tupelo is even more gorgeous in the autumn than the sweet gum. In 
fact, it leads all of the gaudy group such as the dogwood, sassafras and maple 
in the brilliancy of its coloring. It prefers low, wet lands, and requires shelter 
for its best development. When a large, old tupelo is found standing in the 
open, the top is generally dead or broken completely off; but if surrounded by 
neighboring trees, it develops into a beautiful specimen. This tree is being 
planted more than formerly. It has a deep root system and is not easily injured 
by dry weather. The leaves are oval, dark green and shiny. The branches are 
fine and graceful. 

CATALPA. 
Catalpa catalpa. 
Catalpa speciosa. 

One of our native trees which was formerly little known but is now becom- 
ing a favorite, is the catalpa or Indian bean. With its short, stocy trunk and 
fantastically spreading arms, it produces a very picturesque effect. Its flowers 
are very showy like those of the horse chestnut, which they slightly resemble, 
but they are whiter and more drooping than the horse chestnut flowers. The 
large, heart-shaped leaves are very graceful and enjoy the peculiarity of secreting 
nectar. This tree does best when standing in moist soil and protected by a partial 



shade. It grows very rapidly and the wood is valuable for timber. The variety 
C. speciosa is practically the same as the C. catalpa. 

AILANTHUS. 
Ailanthus glandulosa. 

Many people consider that the ailanthus ought never to be planted. It is a 
coarse tree and quickly becomes hollow at the base, but it has many virtues 
nevertheless. It grows very rapidly even on dry and barren soil, and will pro- 
duce a quick effect. Moreover, the large compound leaves retain their bright 
green color late in the summer. The staminate flowers give off a very offensive 
odor, but nurserymen can furnish pistillate trees. 

HOLLY. 

Ilex opaca. 

The holly is an evergreen like the rhododendron, and does well from south- 
ern New England to the Gulf states. It will thrive on dry or wet soil, but grows 
very slowly. It is a beautiful tree with its shining, spiny leaves, and its clusters 
of white flowers or scarlet berries, and it should be more frequently planted. 
Owners of woodlands where it grows should not allow excessive stripping of the 
holly branches by seekers of Christmas green, or it will disappear owing to its 
slow growth. The holly should be transplanted in the spring before the dormant 
season is over, and all the leaves should be removed from the trees or they will 
die. This removing of the leaves at the time of planting is often done with 
other trees when it is a mistake, but with the holly it is necessary. 

AMERICAN ELM. 
Ulmus americana. 

None of our trees are more striking than the tall and stately American elm. 
It shows a strength of limb and delicacy of twig which produces a very delightful 
combination, and even in winter, when stripped of its foliage, it is beautiful and 
attractive. The graceful outward curve of the bold, rugged branches is very 
effective when long rows of elms are planted on both sides of a road, the result 
being a continual Gothic arch outlined by the limbs. The blossoms come early 
in the spring and are generally passed unnoticed. The leaves frequently suffer 
severe damage from the elm leaf beetle, but this may be easily controlled by 
spraying. This tree grows rapidly, especially in rich, well drained, alluvial soil, 
and is long lived. American elms are especially developed in New England 
because they have been growing there so many years, and the soil is specially 
congenial ; but these trees will make a beautiful growth in most of the eastern 
states, and in the middle west also they will become grand, old specimens when 
they have attained sufficient age to permit it. 

ENGLISH ELM. 

Ulmus campestris. 

While possessing great beauty, the English elm has a different growth from 
the variety which is native to this country. One straight leader is formed from 
which the branches are given off. The English elm is as rugged and stocky as 
the American elm is graceful. The foliage arranges itself in beautiful masses 
and remains green and rich until late in the fall. 

WHITE PINE. 
Pinus strobus. 

Of the many varieties of pines, and in fact, of all the evergreens, the white 
pine stands out with a sort of kingly dignity. It assumes a variety of shapes 
according to its environment, and frequently it is picturesque, but unless muti- 
lated, it is always beautiful. He who has stood in the depths of a real pine 
forest, drinking in the fragrance of its breath, listening to the whispered songs 
of the cathedral woods, and experiencing the stateliness and solemn grandeur of 
Nature's temple, has found the pine in its true home and has brought away with 

23 



him a broader mind and a richer soul. Of all the timber trees, the white pme 
is the most sought by lumbermen. Fortunately, it will thrive on most soils, and 
formerly our continent was covered with vast areas of pine, but the absurd 
methods of wasteful and destructive lumbering have nearly exhausted the supply. 
It is a rapid grower, even on sandy soils. The leaves, or needles, are in clusters 
of five. The bark is smooth except on the old trunk. 

RED PINE. 

Pinus resinosa. 

The red pine, also, is very beautiful. It is a solitary tree and never occurs 

abundantly in the forest. In the open, however, it makes a splendid growth, tall 

and erect and with plenty of low branches. The leaves appear in clusters of 

two, and are set in deep sheaths by which the tree may be recognized. The scars 

of these sheaths make the bark rough and scaly more like the bark of the pitch 

pine ; but the red pine need never be confused with the pitch pine, as the latter 

is smaller and extremely coarse, and its leaves are in clusters of three. The red 

pine should be planted freely, but never in clay soils. Sunlight and dry, coarse 

soil are very necessary. 

SPRUCE. 

The spruces are most characteristic when permitted room for development. 
Tall and straight, with their branches curving downward and outward, they 
stand like melancholy sentinels vainly endeavoring to lift their arms. The red 
spruce the white spruce, and the black spruce are native to America, and they 
are distinctly northern trees, true Arctic explorers, in fact. The Norway spruce 
is European, and is the most important growth of the Alpine forests. It flour- 
ishes in this country, and is a beautiful tree for American planting. 

HEMLOCK. 
Tsuga canadensis. 

The hemlock is a valuable tree for aesthetic planting, especially on steep and 
rocky slopes. It is not an important timber tree, as the wood has little value, 
but the bark is much sought on account of its tannin, which is used in leather 
manufacturing. The bark is very rough and the leaves are short and flat. Like 
the spruce, the hemlock allows its branches to droop and sweep the ground, but 
in a much' more graceful manner. The spray is flat, but filmy and lace-like. 

PLANTING 
What to Plant and Where 

Whenever it is found that a street or vicinity or an estate is in need of 
trees the questions at once present themselves as to just where the trees should 
be placed, what trees are most desirable for the different locations and how 
they should be planted. Each of these subjects is worthy of cosiderable atten- 
tion and this is demanded if good results are to be gained. 

We are in the age of specialization and it is always best to call in a special 
landscape gardener if possible. Landscape art, the art of outdoor life, requires 
study and experience as well as natural talent if perfection is to be obtained. 
Many people wish the pleasure of undertaking all such work themselves, but 
even then it is most wise to follow a working plan of some good artist. If 
this is impossible, we should proceed with care in order that we may not of- 
fend by disregarding the laws of landscape art and the laws of nature. 

Whenever the need of a tree is felt we must first acknowledge the purpose 
for which it is needed, and then decide what tree will best accomplish the 
desired result and in making such a decision the tree has something to say 
about it. We must not plant our favorite variety in a certain place unless the 
conditions and environment are suitable. A tree that is beautiful at one loca- 
tion may not thrive in another, and a poor specimen in wretched health is never 
an ornament. 

23 



And then the laws of propriety and good taste must be considered What 
may be suitable m one place, may not be at all satisfactory in another 

It would not be good taste for an architect to construct the walls ceilings 
and exterior of a simple colonial house according to the lines and embellish- 
ments which might be used for a Venetian palace, nor for the drawing room 
of the same Colonial house to receive the same appointments which would be 
appropriate m the more extravagant abode. Again it is not good taste to set a 
typical Fifth Avenue residence off by itself in the woods and fields to serv» 
as a country home, although this is often attempted. 

In just the same way, to a considerable extent, wc must use care in planting 
To be sure. Nature is very capable of adapting herself harmoniously to most 
conditions, and a beautiful tree is beautiful wherever located; yet by following 
the laws and good taste of fine landscape art we may so arrange our planting 
that the best results are accomplished. 

We must consider the entire picture as a unit, and after designing as it 
were, the desired effect in our mind's eye we should choose each tree and'group 
of trees for each part of the picture so they will in very case lend their portion 
ot the desired result to the composite landscape. 

There is the skyline to be produced, high at this point, low at that full 
and rounding there, and sharply pointed and broken at another place ' The 
skyline must be considered from different standpoints. A large rounded elm 
might give character to the horizon from one point of observation and yet 
shut off a delightful view which is very essential from another position 

Certain groups of rocks might be beautifully clothed with a judicious plant- 
ing of evergreens ; when the same evergreens at another place would not har- 
monize with the surrounding deciduous trees. 

Small cedars or ground junipers may be scattered over the slope of a broad 
hillside field when large deciduous trees would break up the field and produce 
an inferior effect. 

Around the margins and grouped at the corners of the same field large 
broad-leaved trees might serve admirably, and even at one or more 'points 
within the field, deciduous trees could be grouped into dense islands of foliage 
in a pleasing manner. 

Willows that would droop artistically over a brook, or mass themselves 
upon a point of land protruding into a pond or lake, might be very unsatisfac- 
tory as specimen trees with different surroundings. 

Birches, growing in a row along some drive might lack character- but the 
same trees, with their snowy bark and graceful heads, if daintily grouped in a 
natural way set off by a background of darker green would lend much character 
One Lombardy poplar or several in a group are often desirable, while a 
row of them along a walk in the midst of other less conventional trees is very 
unsatisfactory. 

A clump of ragged locusts with their wild picturesqueness is very pleas- 
ing in most places ; but for the immediate vicinity of a large formal house they 
would not be sufficiently dressy. 

We must also consider the natural habitat of trees, and in planting give 
preference to those which will do best with the climate topography, locality 
and soil in question. The American elm, for instance, is capable of most beau- 
tiful development in fairly moist soil containing a plentiful supply of silt 
some clay, and enough fine sand to permit good drainage. It wil lalso thrive 
in moist places but does not prefer a dry soil. 

White oaks, red oaks, scarlet oaks, birches and maples do best on fairly 
dry soil. 

The white pine does well on most any soil that contains any reasonable 
amount of nourishment, and the ailanthus will thrive in the most barren places. 

24 



Red maples, swamp white oaks, pin oaks and sycamores like low and 
more or less damp locations for their best development. 

Chestnuts prefer medium high land with plenty of clay ; and the hem- 
locks, rock maples and some of the hickories love to climb among steep, rocky 
hillsides. 

Trees are not restricted to their natural habitat but when planted in other 
places they are more or less subject to drought, winterkilling and insect troubles. 
Where groups are desired, we must use those trees which will stand 
grouping. Many trees which will spread out into broad full specimens if per- 
mitted room for development are able to get along with less room if necessary, 
struggling up to a greater height and producing a different type, but still beau- 
tiful. The hickories are good examples of such adaptable trees. On the other 
hand, the elms, oaks, maples, and beeches should not be crowded as they are 
not as beautiful in a wild ragged condition as when allowed plenty of room for 
perfect development. 

When planting closely to produce dense effects, it is well to use an under- 
growth of shade loving trees. For this purpose the dogwood, hornbeam, alder, 
birch, striped maple, mountain ash, iron wood, sassafras, tupolo and witch- 
hazel serve admirably, being more or less tolerant of shade. 

Of the large trees, even those which stand grouping and, therefore, more 
or less lateral shade, have a tendency to lose their lower branches, partly be- 
cause of lack of light and partly because trees naturally prune themselves when 
close. Thus, when growing in dense groups, all trees have a tendency to become 
spindly and bare of lower branches, and the undergrowth of small tolerant 
trees will act as a filler and produce a low mass of foliage. 

In planting we must not neglect the winter effect, for when all the decidu- 
ous trees are stripped of their foliage, those which are attractive because of 
colored barks, such as the beeches, dogwoods, birches and sycamores, give life 
and warmth to the landscape, relieving the somber browns and snowy whites 
of winter. Of course, the evergreens play a very important part in a winter 
picture. 

In road-side planting and the planting along city streets, special care should 
be given to the selection of varieties adapted to the conditions. 

Along country roads, the trees should be planted in an irregular manner 
leaving mtervals of open. A greater or less profusion of low bushy trees 
together with a natural planting of bushes is pleasing and productive of a 
rural aspect. 

Along city streets the trees may be arranged in a more conventional man- 
ner, althoui?b O.roken rows are by no means undesirable, and a true artist will 
seldom ren e a 'beautiful specimen for the sake of a sidewalk or a straight 
curb if room can possibly be obtained otherwise. We have all seen grand old 
elms and oth^r beautiful trees cut down merely because they grew in the middle 
of a sidewa^i' , and the man who prefers the room to the company of such 
a tree shouJd be considered in the same light. 

When t"« are planted in rows, very careful attention should be given to 
the distance kr tween them. It is often necessary to place young trees near 
together in o der to produce a satisfactory immediate effect, and if this is done 
the trees mmt be so arranged that every other one, or every other two, may be 
taken out Izirer, leaving the remaining ones at a proper distance from each 
other. 

Only too, often, when necessary to remove every other street tree, it is 
found ♦' Ai V. e soace between them will then be too great, and a little 
more judgment at the time of planting would have facilitated matters. In 
such cases it is especially hard to remove the offending specimens, and the ten- 
dency is to leave them too long until the other trees are damaged. At best it 
takes considerable courage to administer the heroic treatment of th axe and 

25 



the matter should be simplified as much as possible at the time of planting. 

What to plant on a city street is a very important question. In the first 
place, many trees will not thrive where their roots are covered by brick and 
concrete sidewalks or macadam and other solid road beds. Under such condi- 
tions oxygen is excluded from the roots and moisture is obtained with diffi- 
culty. Deep-rooted trees are the best for such planting and the Norway maple 
makes one of the most satisfactory street trees for this as well as other reasons. 

The purpose of street planting is not only for ornament and beauty, but 
also for the shade that is furnished, thus those trees which produce the best 
shade are favorites. They must not, however, have lower branches which will 
impede traffic. For this reason some trees are not suitable. Generally, however, 
trees may be trimmed up eight or twelve feet without marring their beauty 
and with the maples especially this is necessary. Pin oaks are very beautiful and 
grow rapidly ; but the most striking characteristic of these trees is the drooping 
of the lower branches, and for this reason they are better adapted to lawn 
planting. 

Most of the oaks, however, are very desirable for street planting if prop- 
erly trimmed. They are generally avoided because quick effects are desired; 
but we should be willing to consider posterity, and he who plants a tree in order 
that future generations may receive the results of his work is conferring a 
great and lasting benefit on his community. As a matter of fact, however, 
many of the oaks make a fairly rapid growth and the red oak which is par- 
ticularly beautiful may be considered a rapid grower and is very suitable for 
wide streets. 

The horse chestnut is not a good choice for street planting. It is a dirty 
tree and the foliage drops early. 

The silver maple is a rapid grower and beautiful in early spring; but it is 
too easily broken by ice and winds, and is very susceptible to borers especially 
when subjected to the difficult environment of city streets. 

The red maple is not as hardy as the rock maple or Norway maple and is 
inferior in beauty. 

The Oriental plane is a very desirable tree for wide streets. It has recently 
come greatly into favor because unusually adapted for such conditions ; but 
it should not be used too generally as has been the case in many cities. 

The liquidamber is a good tree in New York state and southward. It pre- 
fers low moist locations but will adapt itself to dry conditions. 

The tupelo also prefers wet soils but it has a deep root system and will 
often do well for city planting if it is not in an exposed position. 

The white ash is an excellent street tree for the east and its bp.auty is not 
effected by necessary trimming. It has a shallow, fibrous root sysffcin and pre- 
fers rich earth. Nevertheless, it generally does well as a street tree in locations 
east of the Mississippi. 

A general rule which may be followed is the planting of mediura-sized 
trees on narrow streets and reserving the tall and broad headed trees for wide 
streets and avenues. Not only do the larger trees require more kO^jii, but they 
are set off to a better advantage by a broad thoroughfare whicu" will permit 
their beauty to be revealed from a distance. 

The hickory is a tall and beautiful tree but it seems rather out of place 
when planted upon a street and the same is more or less true of the chestnut. 
The evergreens are little used for this work as they tend to darken a street 
and lend somewhat of a gloomy atmosphere. Of all the tall tre»s the honey 
locust, tulip, tupelo, liquidamber, the oak, especially the scarlet oak. I'.ie ash, 
sycamore, sugar maple, and elm are the most suitable for street planting and 
especially attractive on wide streets. 

Probably the most noble tree for road side aiid city street planting is the 
American elm. Its limbs rise up well out of the way of all raffic and then 

36 



spread out in a superb head. Their naked ruggedness is very beautiful in win- 
ter and in summer they are massed and dripping with beautiful swaying foliage. 
Single specimens lend a great deal of character to any street, and long avenues 
of elms will make even shabby communities beautiful. 

How to Plant 

In tree planting it is first important to select good specimens. If a young 
tree has acquired good habits of growth its chance of making a good specimen 
is far greater than a poor sapling which has been injured or wrongly started, or 
one that has lead a struggling existence. Great care should be used in selection, 
and stock should never be chosen because of a favorable price. Moreover, trees 
should only be bought from a well known nurseryman of good reputation. A 
tree pedlar is a nuisance to any community. His goods are very apt to be untrue 
to variety and we know nothing of the treatment they have received. The 
more care trees have received in a nursery the better fitted they are to stand 
the shock of transplanting. Large, scrawly roots are not desired. It is only 
the small hair rootlets which feed the tree and those trees which have received 
proper treatment in the nursery will have acquired a small, compact ball o 
fine roots, of which a large portion may be saved in moving and which will 
carry with them a good ball of earth. 

The spot in which the tree is to be planted should also receive very care- 
ful attention. This point cannot be over emphasized. Wherever trees stand 
in cultivated fields they are forced into a tremendous growth with rich heavy 
foliage and beautiful symmetry, and this condition should be approached as 
closely as possible by putting the soil where the tree is going to stand, in per- 
fect tilth If possible, this should be done during the fall previous to planting. 
When preparing the soil it should be "made up" to suit the tree, using 
varying amounts of humus, sand, silt and clay according to the needs of the tree 
in question. If peat or muck from swamps is used for humue, it must be 
treated with lime and sunshine to sweeten it, otherwise humic acids will be 
formed in the soil and the trees killed. It is well to have considerable gravel 
or sand in the top soil about trees so the rains will easily percolate directly down 
rather than running off at the surface. 

The hole should be dug sufficiently large to permit a careful arranging of 
the roots, for if they are crowded the tree will never fully recover from the 
treatmem. ^^^ ^^^^ ^^_^ _^ ^^^^^ ^^^ _^ .^ ^^^^ ^^ thoroughly loosen the earth 
at the bottom of the hole in order that the replaced earth will pack into and 
unite more perfectly with it. If any stones are removed the smaller ones may 
be scattered judiciously into the bottom of the hole to assist in draimng. Ihe 
surface soil should be kept by itself and replaced first as it is richer than the 
subsoil and will make a better bed for the roots to lie in. Before this is put m. 
leaf mold nvi; ^ be carefully mixed with it. or manure if it is thoroughly rotted. 
Fresh manure would cause severe injury to the roots and possibly even burn 

* ^"while the surface soil is being placed about the roots it should be thor- 
oughly packed in a close, firm mass. This may be done with the feet, aided 
by a smooth round stick, such as the handle of a hoe. Care must be exercised, 
however, that none of the roots be broken. 

If the tree is carefully worked back and forth with the hands, the soil may 
be packed down more firmly. At this time, due attention must be paid to 
keeping the tree erect, for if not placed in an upright position, it is difficult to 
correct the error afterward without injury to the roots. 

27 



The subsoil is replaced last and packed as firmly as possible, and the sur- 
face should be rounded up to allow for settling which will follow. 

After all the soil is in position and the planting accomplished, water should 
be added in sufficient quantities depending upon the dampness of the soil. It 
is common practice to pour water into the hole to help pack down the earth 
before it is all in place, but this is a mistake, for after the water has fully 
drained off, which will take some time, cavities will be left in the soil. 

Even after the planting is finished an excess of water must be 
avoided. Large quantities at one time will do little harm if any, but the soil 
should be allowed to dry out before more water is added. Only too often, 
good trees carefully planted, are killed later by constant watering which ex- 
cludes oxygen from the roots and dilutes the weak root acids which are nec- 
essary to render the soil foods available. 

In tree planting, careful attention to all of the essential details is necessary. 
Good trees carefully grown and carefully packed and shipped are apt to die 
from careless planting, and the blame is generally placed upon the nurseryman 
which, in such cases, is unjust. 

As stated above, it is important to select good specimens. These must be 
carefully shipped and if the roots are puddled to receive a coating of clay, and 
then bound up in wet sphagnum moss, the purchaser will receive them in good 
condition. It is wise to have as short a time as possible occupied in shipping. 
Some trees, however, may be transported for long distances, and subjected to 
long spells of drought without harm resulting. 

Unless it is possible to plant the trees immediately upon their arrival, they 
should be heeled in. That is, a trench should be plowed or dug so that the 
trees may be laid sideways and their roots covered. It is well to give them a 
watering at this time, or even dip the roots into water. After the trees are 
taken from the trench for planting, the roots should be covered by wet burlap 
or canvas to prevent the sun striking upon them, for if the roots are allowed to 
become dry. they may be killed. This is especially true of the resinous roots 
of conifers. 

Should any roots have been injured in shipping, they should be carefully 
removed, making a smooth cut. A decayed root may do quite as much damage 
as a decayed trunk or branch. 

When placing the trees in the hole, some varieties may be set a little deeper 
than they formerly grew. This will place the roots a little nearer to the water 
table ui«il established and the tree will find little difficulty in putting forth new 
surface roots. It will also enable the tree to stand more firmly until the soil has 
become packed and the tree firmly anchored. 

Some trees, however, are liable to injury if set deeper, and in any case the 
difference should be very slight. Trees should never be planted less deep 
than they formerly grew. Of course the tree formerly grew at the proper 
depth, and as the time of transplanting is critical it is often safer to copy the 
former conditions and not attempt to teach the tree new habits. 

At the time of planting, trees must receive a more or less dr^.stic pruning. 
A large proportion of the microscopic hair roots are sacrificed by moving and 
the remaining roots are unable to obtain a sufficient supply of water to permit 
the excessive evaporation from the leaves and wood. 

About one-half of the wood of deciduous trees should be removed. This 
takes courage but it is important. The selection will depend somewhat upon 
the variety and therefore upon the type of head desired. 

Street trees should be trimmed up from eight to twelve feet according to 
their position. If they are very near the sidewalk eight feet will be sufficient; 
but if they overhang the street twelve feet will be necessary to allow room for 
passing vehicles. 



28 



The branches of most trees will droop as they increase in weight and such 
trees will be improved in appearance by this trimming if done at time of plant- 
ing. If neglected then, it cannot well be done later without injury to the ap- 

'^'T^nyVt: Sd be topped at the time of planting and this will depend 
somewhat upon whether the tree should produce a direct leader or an open 

^'^'^Most of the maples may be stripped of their branches and topped at the 
height the lowest branches are desired. This looks as though it would be dis- 
astrous ; but on the contrary most admirable specimens may be produced in 

''"xhTTugar maple tends, more or less, to form a direct leader and caution 
should be used in topping it. Other trees which form upright leaders may be 
topped when the saplings are making two spindly a growth, if care is used to 
permit the formation of a new leader. . j . , „ 

American elms may be considered to form an open head; but neverthe- 
less, they must not be topped or they will never develop the desired charac- 

teristic type 

In growing conifers especially, success depends in a great measure upon 
the soil and it has been observed that trees of the same variety and growing 
as companions in the same vicinity, will vary greatly in size and beauty because 
of different soils used at the time of planting. . , . , . , 

The best soil for conifers is a loam sufficiently rich in humus, but con- 
taining sand to insure good drainage, and this applies to the subsoil as well as 
the upper layers. Excessive moisture in the subsoil is very detrimental except 
to those trees which love the bogs and swamps and they are mostly southern 

""^"There are varying opinions concerning the best time for planting conifers 
It is best that the newly disturbed roots should be placed in their final 
resting place some time during the growing season in order that they may re- 
sume the performance of their functions at once. . , . 

It is unfair to subject conifer roots to the shock of transplanting either m 
the heat and drought of summer or cold and drought of winter, although kss 
harm will be done in the winter if the ground is frozen as a large root ball may 
then be obtained, in which case, many of the roots will not be disturbed what- 
ever Some expert tree movers, by means of especially devised apparatus, are 
often able to move large oaks, pines and other trees of great size w-th success 
even in midsummer. When successful in this, it really seems as though they 

actually fooled the trees. .... „a 

Probably the best time is in April when the soil is becoming warm and 
everything in Nature is starting into a new growth. The trees should be taken 
up just before the buds begin to open. 

If the work cannot be done in April, it had better be arranged late in 
August which will allow the roots to become established before being subjected 
to the freezing and thawing of winter, although, as we have said, winter plant- 
ing is often satisfactory if properly done. 

The above applies throughout the north; but in the south conifers should 
be planted in November or late February. 

If the growth has started before the trees are taken up, all the new growth 
must be carefully pruned off and this must be done evenly to keep the trees 
symmetrical. Other than this, no pruning should be given evergreens at the 
■: .1 of planting, unless there are undesirable limbs which shoud be removed 
fa tree is in particularly poor health, some of the branches might be thinned 
out, but, on the other hand, such a tree should never be planted unless the 
specimen is beautiful after this pruning is done. 

If a conifer is growing too rapidly in height and becoming spindly, the leader 



may be cut out and while a new one is forming the tree will fill out into a 
better type. When a conifer is topped in this way, however, great care must 
be given to the formation of a new leader, as a double-headed conifer is not 
attractive. A stick tied to the trunk of a tree and extending above it will 
furnish support to which one of the uppermost shoots may be trained and this 
will quickly develop into a new leader. 

If the foliage of newly planted conifers is kept wet for a few days and 
then partially shaded for a time, the excessive transpiration is reduced and the 
trees will be benefited. 

After planting evergreens they should receive heavy applications of organic 
fertilizers, although inorganic foods may be applied if carefully balanced 
formulas are used. 

PRUNING, TREE SURGERY AND BOLTING 

Tree surgery is a pleasant and suggestive term for the art of saving fruit 
and shade trees which have been damaged by Nature's violence or have fallen 
victims to disease and decay. Its value is becoming appreciated more and more 
highly and it is doing much to preserve the trees which add to the beauty and 
charm of suburban and country homes. 

Nearly every house has trees around it, parks and thoroughfares arc made 
beautiful with trees, and, like all growing things, these trees need attention. 
They must be cared for and fed, guarded from the attacks of insect and fungous 
enemies, pruned and trained, if they are to become symmetrical and strong. The 
average owner bestows very little attention upon their welfare, mainly because 
of unfamiliarity with the proper methods of procedure. 

The most important pruning is required at the time of transplanting. It is 
then that a tree is trimmed up and trained according to its condition at the time, 
the location in which it is placed, the characteristic style and method of growth, 
and the type of head which is desired. This subject has been previously dealt 
with under the head of planting, and we will now consider those trees which 
have attained considerable growth and are more or less mature. 

Unless cared for, trees acquire a greater or less amount of dead wood. In 
the struggle for existence many branches fall out of the race. When crowded, 
trees prune themselves, and lower limbs often die from the shade of higher 
branches. Insect and fungous diseases, mechanical injuries, winter killing of 
the roots and crown, lack of mineral food and moisture, and other causes, play 
a part in the formation of dead wood. Whatever the cause, dead limbs must 
not be neglected. 

There is a law which applies practically everywhere throughout nature, 
namely, that all living things must either progress or revert. There can be no 
prolonged standstill. Some movement must obtain either ahead or backward, 
and so it is with the tissues of trees. When, for any reason, the cambium, buds 
and leaves on a limb die, there can be no further advance. The lifeless or 
woody portion of a tree will remain sound indefinitely unless exposed to the 
destructive action of decay. As long as the film of live cambium is present the 
wood is preserved ; but when this is removed or killed, decay advances rapidly 
from many causes. Insects, fungi, bacteria and other ferments, as well as oxida- 
tion from weather exposure, all play a part. 

^yhen, for any reason, a wound exists, and the inner wood is exposed, the 
cambium at once attempts to cover it. This is brought about by a sort of rolling 
of the cambium out over the exposed wood. This growth of callous takes place 
mostly from the sides and upper part of the wound owing to the downward 
flow of sap. Wherever a dead branch, or even the stub of one, remains upon 
a tree, the cambium vainly endeavors to heal the wound, although nothing can 
be accomplished. The new bark may protrude an inch or two along the branch, 
but further it cannot go. This condition is to be seen on every hand, and on a 
beautiful old tree it is indeed pathetic. If the limb is not removed at this stage, 
decay eats back into the trunk, and by the time the stub has rotted sufficiently to 

30 



fall of its own accord, an ugly cavity has formed in the trunk. All this may 
be prevented by removing the dead stub or limb in proper time. 

When removing a limb, the cut should be made as closely as possible to the 
contour of the tree. This is very important. Absolutely no stubs should be 
permitted to remain to prevent the new bark from spreading readily over the 
wound. The closer the cut is made the larger will be the wound, but this large 
wound will heal far more quickly than a smaller cut which is made several 
inches from the trunk. The rule to be followed, then, is to make the largest 
cut possible. 

All cuts should receive some protective dressing to preserve the wood until 
healing is accomplished. Coal tar is excellent for this purpose, as it has con- 
siderable body and will remain for a long time. A drab lead paint is aTso good 
and sometimes it is preferred. 

When large limbs are removed two cuts must be made, otherwise the heavy 
branch will fall before the cut is finished, dragging with it a long peeling of 
bark from the trunk which will prove a serious matter. The greater part of the 
limb should be removed first by making a primary cut six inches away from the 
trunk, and even here care must be used to prevent stripping of the bark. This 
may be avoided by first passing the saw through on the under side an inch or 
two. After the heavier part of the limb is removed in this way, the remaining 
stub may be taken off without danger. 

Frequently it is necessary to remove live and healthy branches from trees 
for various reasons. 

Limbs growing in toward the center of a tree will eventually cross and 
chafe. Some trees, especially some of the maples, tend to produce thick, bushy 
heads, and it is best to remove all excess branches so the growth may be diverted 
into the most desirable ones. These will then become large and rugged, and the 
trees far more beautiful than those composed of masses of undersized limbs. 
When removing live branches in this manner all care should be exercised to 
retain symmetry and natural beauty. 

Occasionally when trees are found to be in a dying condition, we have reason 
to believe the roots are damaged. This may have occurred from winter killing, 
or drought, or from construction of walks and drives. Grading, also, is fre- 
quently to blame, either by the removal of soil and cutting of the roots, or from 
raising the grade and burying the roots. Whenever the roots are severely dam- 
aged from any cause, the tree should receive some pruning of the crown. While 
developing its growth the tree has attained a balance between its crown and root 
system, and when any considerable number of the roots are injured, sufficient 
moisture to supply all the twigs and leaves cannot be obtained. The sun and 
winds evaporate more water than the tree can afford and the leaves wilt and 
become brown at the edges. Therefore, in such cases it is necessary to thin out 
the branches until the balance is restored between the roots and crown, in order 
that the tree may need no more water than the roots can procure. 

There are rare cases where it is necessary to severely cut back or "pollard" 
dying trees. This is done to stimulate a new growth. Dormant buds are forced 
to develop and a new system of branches is finally produced. Several years 
after a tree has been pollarded it is very necessary to remove the old stubs in 
order to prevent the formation of cavities. Most of the young shoots must be 
thinned out as they appear, permitting only one or two to remain on each stub. 
Pollarding should be practiced most conservatively and only by an expert. No 
tree should be thus treated except as a last resort, as the beauty of the specimen 
is destroyed for several years. In many cities whole avenues of noble trees 
have in this way been rendered unsightly and often killed, when such treatment 
was entirely unnecessary. Such carelessness is almost a crime. 

"Topping," however, may be more frequently practiced. There is a vast 
difference between pollarding, or cutting back by sawing off large limbs, and 

5« 



topping, which is merely the removal of the small shoots at the top of a tree. 
This may be done in such a way that the growth is only arrested in that direction 
for a short time and the tree will be stimulated into forming a heavier growth 
below without severely injuring the appearance of the specimen. In severe cases 
this topping may be repeated after a safe interval. It is often a very effective 
means of filling in a tall, thin tree which has made too rapid a growth. Although 
this practice is much less drastic than pollarding, it should only be done by one 
experienced, and some trees in particular should only be topped with extreme 
care and conservativeness. In fact, trees should never be subjected to this 
treatment unless they have made a very scanty growth or there is some other 
definite and sufficient reason. 

Small branches may be removed by means of pruning hooks, ten to sixteen 
feet long. Lari;er branches in unaccessible positions may be cut by means of 
a pole saw. This is merely a saw blade adjusted to a long pole and made suf- 
ficiently heavy to be effective. Both the pole saw and the pruning hook save a 
great deal of climbing. Pruning should only be done, however, by agile climb- 
ers who can work with ease and surety in any part of a high tree. On thick 
barked trees like the oak and elm, linemen's climbing spurs may be used to 
great advantage by experienced men. 

A previous explanation has described how cavities are formed from de- 
caying branches and stubs, and how such cavities are to be avoided by 
proper pruning at the right time. Only too often, however, no attempt is made 
to arrest decay until cavities have formed. 

A cavity in a tree is really a serious matter. Even a small fissure on one 
of the upper branches may kill a tree in time, owinj:; to the spreading of the 
decay from one branch to another and finally down into the trunk. 

It is impossible for the bark to heal over a large cavity, as there is no sup- 
port for the cambium to roll on. Such a cavity will rapidly increase in size 
until the entire trunk is hollow, and the tree goes down under its own weight 
or before a strong wind. It is necessary that some surface should be 
present on which the cambium may roll. The cavity should also be filled in 
order to make the tree sound once more and this must be done in such a way 
that the decay is permanently checked and the trouble remedied for all time. 

All decayed and diseased tissues must be removed from a cavity until noth- 
ing but sound wood remains. This requires a chisel or gouge and a mallet. 
A heavy application of coal tar should be applied to the interior, and the fis- 
sure may then be filled with cement. In large cavities broken stone may be 
used to help fill up space. The best grade of Portland cement and the best 
quality of sand are needed for this work. If there is any silt, or organic mat- 
ter in the sand, the cement will not set firmly. Three parts of sand to one 
part of cement will make a good concrete if it can be used fairly wet. 
Generally, however, when mixed very wet, cement will not remain in position, 
and in upright cavities it is often necessary to mix it sufficiently dry, so that 
when squeezed with the hand the mass will retain its shape. Under these con- 
ditions it is best to use equal amounts of sand and cement. In very large cav- 
ities it is sometimes wise to erect a brick wall near the entrance and fill the in- 
terior of the cavity with very wet cement. The surface of the brick support 
may then be covered by a wet cement which can be applied in thin layers plas- 
tered one upon another until the surface meets the contour of the cambium. 
This method is expensive but the wet cement will set exceptionally hard, harder 
than rock, and with extra large cavities in valuable trees it is worth while. 
In many cases a netting of chicken wire will provide ample support for the 
moist cement until it has set. This can be nailed across the cavity on the inner 
side of the opening. It is considerably cheaper than brick. Before the cavity 
is filled, it is well to drive large nails partly into the wood in the interior of the 
cavity, in order that the cement will set more firmly to the_ wood. After the 

32 



filling is in place, the surface of the cement should be puddled and troweled as 
much as possible, and the more of this troweling it receives, the harder the 
concrete will become. It is very important that the edge of the cambium 
should be cut, and the cement must not reach over this or even touch it. If 
carefully done the growing cambium will roll over the cement and even cover 
it, although this is not necessary. Considerable skill is required to do expert 
work of this kind, and the filling of a decayed tooth by a dentist requires no 
more care than the proper treatment of a cavity in a valuable tree. 

Trees often become weakened so that heavy branches require support. 
Under such circumstances, iron bolts, if properly applied, may frequently pre- 
serve grand old specimens from destruction. There is decidedly a proper and 
an improper use of bolts. It is exceedingly injurious to fasten bolts by means 
of bands. Such bands, whether of iron or other material, quickly choke the 
limbs they touch. Growth is, of course, prohibited, the limbs become strangled, 
and the cambium is eventually girdled. A hole should be bored directly 
through the wood, through which the bolt may be passed, and a washer and 
nut applied to the outside for support. The washer and nut should be counter- 
sunk so the bark may quickly heal over them. Bolts applied in this way will 
do no harm if care is used to prevent splitting. If a single bolt is used, it is 
very liable to be broken by the swaying of the tree, or possibly the tree itself 
may be split, as the leverage of a long heavy limb is enormous. Thus it is often 
necessary to have the bolt in two or three parts, attached in the centre by one 
or more chain links. This will support the weak member and also permit the 
natural sway of the branches. Eye-bolts, in many cases, will answer the same 
purpose. That is, the bolts may each be made with a turn on the end farthest 
from the nut, and these can then be locked into each other. In some cases it 
is necessary to draw the weak limb closer to the tree, and then the bolts may 
each be made with a thread on each end. and a turn-buckle used to connect the 
bolts and tighten them. 

For limbs one foot or under, 3-4 inch iron is generally heavy enough, but 
as the limb and leverage increases the iron should also be increased in diameter. 

The higher the bolt is placed from the crotch, the less will be the leverage 
strain. High bolts may therefore be made of smaller iron, and they are better 
concealed by the foliage. 

COMMON DISEASES AND THEIR CONTROL 

Trees are subject to a great variety of diseases. Most of these may be con- 
trolled by man where it is possible to definitely distinguish the cause. 

The diseases which attack man himself have been studied carefully for cen- 
turies, and when a physician is called in, it is generally possible for the human 
patient to tell something about his trouble which will assist in making a diag- 
nosis. The science of plant pathology, however, is comparatively new. There 
is a great variety of diseases which only attack certain trees, and of course the 
tree cannot tell us anything about the history or symptoms of the case in ques- 
tion. The plant pathologist must rely mostly upon what he sees, his knowledge 
of the normal tree, his knowledge of disease, and what his judgment tells him 
about the history of the trouble. 

When a tree has been weakened by one cause it becomes susceptible and 
predisposed to other diseases, and the pathologist must not mistake the secondary 
trouble for the actual cause. 

Tree diseases may be grouped under the following heads, and we will con- 
sider each in turn, both as to the nature of the trouble and the best methods of 
control : 

Poisoning. 

Injuries from heat. 

Injuries from cold. 

Abnormal moisture supply. 

Abnormal food supply. 

Mechanical injuries. 

Bacteria. 

Fungi. 

Insects. j 

:;; 33 



This is not a true classification of diseases. Rather it is a division which 
we will follow for convenience. 

Poisoning 

There are many poisons which may injure trees either through the soil or 
through the leaves. Fertilizers containing muriates are apt to be dangerous, as 
the chlorine may be injurious. There is a constant interchange of acids and 
bases among the chemicals of the soil, and when muriates are used chloride of 
ammonia is sometimes formed, which is a deadly poison to plant life. 

Sulphur dioxide has done much damage in the vicinities of smelting estab- 
lishments. The gases of coal tar are very injurious, and coal gas is also respon- 
sible for much killing of vegetation. 

The lichens which live on the barks of trees in the country are absent in 
the vicinity of cities owing to the coal gas in the atmosphere. The lichens do 
no harm, as they merely feed on the dead part of the bark. Wherever they are 
not found on the trees, we know the trees are struggling with atmospheric 
impurities. 

Sulphurous acid gas is given off from burning coal, and in some localities 
it is responsible for considerable damage. Such gases enter the stomata and 
kill the chlorophyll. 

Illuminating gas probably does very little damage by coming in direct con- 
tact with foliage, but when escaping in the soil, it becomes soluble in water and 
is taken into the trees, which quickly die, owing to the destruction of proto- 
plasm. A tremendous amount of damage annually occurs from this cause. Gas 
pipes and mains frequently leak at the joints. When old mains are subjected to 
increased pressure for the supplying of larger districts with illuminating gas, the 
pipes are often unable to hold the pressure. It is estimated that lo per cent of 
all the gas manufactured in cities is unaccounted for by the meters, and prob- 
ably most of this escapes into the soil. Entire avenues of beautiful trees are 
sometimes destroyed in this way. 

When small amounts of gas are present in the soil, the trees may struggle 
on for years in poor health, forming considerable dead wood, and possibly dead 
areas of bark on the trunks. 

In cases of large leaks, the soil may become saturated with gas, and distant 
trees killed even when there is no noticeable odor in the atmosphere. In severe 
cases of gas poisoning there is little hope for recovery, for by the time the 
trouble is discovered the damage is irreparable. The upper leaves are apt to 
be affected first. The foliage becomes yellow and falls and the bark takes on 
a dark appearance. In the spring, the inner bark and sap wood acquires a dis- 
agreeable odor, and in the summer the tissues become noticeably dry. Very 
soon the bark comes away from the trunk, and this is a characteristic of gas 
poisoning, for in other diseases the bark adheres until long after the trees are 
dead. There are several kinds of fungi which attack a "gas tree" and often 
completely infest the dead parts in a very short time. 

When trees first show symptoms which appear to be due to gas poisoning, 
the roots should be carefully examined, for the first roots affected will indicate 
the direction of a possible leak. Then careful examination of the soil will reveal 
the unpleasant odor of condensed gas, and the leak may be located. Property 
owners should force the gas companies to keep their mains in repair, and when 
trees on or in front of private property are killed, the owners may recover dam- 
ages from the gas companies. 

Injuries From Heat 

The story of the yearly damage done by forest fires is appalling. We are 
apt to overlook the harm resulting from small ground fires, but every year many 
trees are seriously damaged in this way. Gardeners and care-takers burn over 
the ground to destroy dead grass and leaves, thinking no harm will result, but 

34 



the tiny flames are only too often hot enough to kill the cambium and girdle the 
trees. 

Many fine specimens are injured from the heat of burning buildings. Unless 
too many of the limbs are destroyed on the side nearest the fire, the trees may 
often be saved. The dead bark should be pulled away to prevent its harboring 
insects and fungi, and the exposed wood should receive a protective dressing of 
tar or paint. 

Sun scorch is a term applied to several troubles, which for want of a better 
place, we will describe under the heading of heat injuries. 

When strong winds prevail for any considerable time during periods of 
drought, many trees suffer from a scorching of the foliage. This is true of 
evergreens as well as deciduous trees. The hot, dry winds whip the foliage and 
draw moisture from the leaves faster than the roots can procure it from the soil. 

Thus sun scorch is really a temporary drought, forced upon the trees by 
excessive transpiration. Trees which stand in sandy soil are especially subject 
to it, and the maples are commonly affected. The leaves become dry and brown 
on the edges, and the inner surface appears sickly. 

The leaves do not fall, however. 

Occasionally only that foliage which faces the prevailing winds will appear 
scorched, and in other cases, entire single maples will stand out brown and dry 
in the midst of surrounding trees of healthy green. In such severe and solitary 
instances the trees are growing in sand or gravel, or the roots are subjected to 
some uncongenial conditions. 

If heavy watering is possible the damage may often be checked as soon as 
noticed. Large amounts of water are necessary in order that the soil may be 
entirely saturated in the vicinity of the scorched trees. Then the ground should 
be allowed to dry out before more water is added in order that oxygen may get 
to the roots and prevent suffocation. 

We have seen sun scorch checked in maples which were previously affected 
each year, by allowing a slow stream of water, from a garden hose, to run upon 
the ground over night and stopping it in the day time. The trees thus treated 
remain until fall in good condition, while the surrounding trees, annually af- 
fected, were very badly scorched. 

Most trees are liable to sun scorch under certain conditions. 

The conifers and other evergreens are most apt to suffer at the end of 
winter. When the warm winds of spring come before the frost is out of the 
ground, injury is very prevalent. Moisture cannot be obtained by the frost- 
bound roots in sufficient quantities to supply the foliage. Arbor Vitae and 
rhododendrons are frequently sun scorched at this time. Whenever a mulch is 
used around evergreens it should be removed in the late winter in order that the 
sun may quickly thaw out the frost. 

Injuries From Cold 

Under certain conditions trees suffer severely from cold. Sleet storms, 
which form thick coatings of ice over the branches, cause much wreckage. The 
limbs become brittle and the weight excessive. 

Tissues of certain trees are better adapted than others to cold weather. 
Trees indigenous to wintry climates have their tissues so constructed that the 
wood can actually freeze without harm resulting. When the dormant winter 
season approaches, the sap and moisture is drawn into the centre of the cells, 
so that, when freezing occurs, there is room for expansion and the tissues are 
not ruptured. With many tropical trees this is not true, and when the moisture 
of such trees is subjected to freezing, the tissues are broken down. 

Exotics, or foreign trees, even though they may not be tropical varieties, are 
more apt to winter kill than native trees which are indigenous to the locality 
in which they are growing. And yet, most trees, even in their natural habitat, 
are very subject to winter killing under unfavorable meteorological conditions. 

It occasionally happens that very dry summers are followed by heavy rains 
in the early fall. This tends to start a late growth which does not become 

35 



ripened before the cold weather, and during the winters of such years a tre- 
mendous amount of damage is done to tree life by winter killing. Pines 'maples 
and birches are especially liable to suffer in this way, and the trouble is due to 
the previous seasons, rather than to the actual cold weather In fact cold 
weather can do little, if any, harm to trees native to the temperate climate 

If trees are fertilized too late in the season, the same result occurs, as a late 
growth IS produced which cannot mature before the dormant season arrives 
If fertilizers contain a sufficiency of phosphoric acid, less harm will be done as 
phosphorus tends to ripen the tissues. 

It is thought that periods of extreme cold weather, occurring when the 
ground is bare of snow covering, are responsible for much killing of the roots 
This ,s without doubt very true, as at such times the frosts penetrate to an 
unusual depth and reach deep roots which are not generally touched and there- 
lore less able to withstand the action of freezing and thawing 

Trees which are in poor health from other causes are more liable to injury 
from winter killing than strong, healthy specimens. 

There are different degrees of winter killing. Many branches die each year 
branches that have made a tender growth and not become matured When cer- 
tain roots have been frozen, corresponding portions of the crown may become 
affected. In the year 1905 the white pines were severely injured over large 
areas. The tops died, and for a time it was thought that some new insect enemy 
of the pines was responsible. 

Occasionally both the root systems and crowns of trees are killed in this 
way. The roots alone may be killed, or only the crowns may be damaged. 

If the roots are killed, the trees cannot recover. By digging up the soil 
one may examine the roots and ascertain the amount of damage. If the crowns 
alone are killed, new suckers and shoots will arise from many trees and thus 
replace them. With such varieties, if no sprouts appear we may be sure the 
roots have been killed. 

Extreme cold weather often produces frost cracks on the trunks and limbs 
These occur in lines following the direction of the trunks and limbs and are due 
to excessive moisture in the bark and sap wood. They are distinct from winter 
killing, and are merely local. The combination of frost and sun appears to be 
largely responsible for the cracking of the tissues, and where the branches partly 
shade the trunks this trouble is less frequent. 

Frost cracks occur most often on fruit trees, but shade trees are also 
affected. During the summer they close, but bleeding occurs, and in many cases 
so freely as to prevent healing, and then they open again the following winter 
This bleeding is aided by fungi and bacteria, and other low orders of plant life, 
and frost cracks are very apt to become large cavities. They should be thor- 
oughly cleaned out, the cambium cut, and the wounds treated with protective 
applications so that normal healing may occur. 

Closely allied to winter killing is a trouble known as sun scald. This has 
every appearance of being due to some invading organism, but it is probably 
merely due to the action of frost and sun upon unripened tissue. 

Sun scald is more prevalent on fruit trees, especially the apple, where it 
sometimes resembles collar rot, but it also occurs on shade trees, especially the 
pines and lindens. The limbs and trunks are affected, but the lower part of the 
trunks are most subject to it. During the following summer the bark dies in 
areas and falls from the wood. These areas should be cleaned out and carefully 
treated with a protective dressing. If the areas circle the trunks, the trees, of 
course, become girdled and are beyond saving. 

If the branches of the trees are allowed to offer a protective shade to the 
trunks, there will be little danger of sun scald. In all probability the damage is 
done by the thawing rather than the freezing, and if the full force of the sun 
is not allowed to beat upon the frozen wood, the frost will come out gradually 
and little harm will result. 

In Florida it has been found that citrus fruit trees, which are usually killed 
by freezing, may often be saved if they are kept shaded while the frost is coming 
out of the tissues. If we could tell when winter damage has been done to our 

36 



northern trees, sun scald, and even considerable winter killing, might be avoided 
by shading the bark at the time of thawing. 

Abnormal Moisture Supply 

The relation existing between a tree and its moisture supply has been pre- 
viously explained. Water is necessary to bring soluble food, to keep the new, 
tender cells fully distended, to aid in the manufacture of starch in the leaves, 
and to liquify the digested products of the leaves into sap which may flow 
through the different channels to all parts of the tree. It is very obvious that 
when, from any cause, the normal water supply is shut off, the entire physiology 
of the tree is upset. 

We have seen how droughts are partly responsible for many other troubles. 
Dry spells in the spring, accompanied by hot winds, produce sun scorch. Summer 
droughts followed by fall rains induce late growth which easily winter kills. 
Altogether, droughts do immeasurable damage to tree life. 

Very often trees, especially those under cultivation, suffer from droughts 
which are merely local. Pavements of streets and sidewalks exclude moisture 
and force it to run off in gutters and cess pools. Those trees, however, which 
can adapt themselves to such dry conditions, are less harmed by unusual periods 
of drought than trees in other locations, as the very pavements which exclude 
rains, tend to conserve what moisture may exist beneath them. Space free of 
pavements should be permitted near the base of a tree, as much for the entrance 
of oxygen as for moisture. 

Drives and walks, when first put in, do much damage to trees, even in cases 
where great care is used not to injure the roots. Gravel and crushed stone are 
frequently used for the under bed of such paths and drives, and this drains the 
neighboring soils. Grading, also, docs much damage, as it raises or lowers the 
water table. The burying of roots with extra soil, in the raising of grades, may 
do quite as much damage as the removal of soil and cutting of roots. Here, 
again, the lack of oxygen may be as disastrous as the lack of moisture. Wher- 
ever roots are subjected to an excess of moisture, the trees are killed from lack 
of oxygen. 

When trees are subjected to any of the above disturbances, they at once 
begin to build a new root system, and thus attempt to adjust themselves to the 
new conditions, and unless too much damage is done in the meantime, the trees 
will gradually recover. 

Very often when, from any of these reasons, trees are found to be in poor 
health and appear to be dying, they have, in truth, received the full extent of 
the damage and are beginning to recover. Whether or not this is true is a diffi- 
cult matter to determine, but the fact that it may be so, makes it worth while to 
give all possible care to such specimens in an endeavor to save them. All dead 
wood should be removed from such trees, together with some live wood, and 
fertilizing practiced to stimulate new growth. 

In severe cases, cultivation and cover crops may be used as a means of con- 
trolling the moisture supply. If there is an excess of moisture, grass should be 
allowed to grow tall, as it will then take up a tremendous amount of water by 
transpiration. Tile draining is also most effective. If there is a dearth of 
moisture in the soil, the grass should be kept closely cut. In very severe cases, 
the sod should be plowed under and the ground cultivated during the dry season. 
I This will produce a dust mulch and break up the capillary tubes which form in 
I the soil, so that evaporation may be checked. This is, of course, not practical on 
lawns where grass is desired, but it is very essential in the culture of fruit trees. 

Abnormal Food Supply 

The food of trees has been explained in the first chapter under the subject 
of "Growth." The great bulk of the food comes from the atmosphere in the 
form of carbon, but small quantities of earthy constituents are needed, and these 
should be supplied in proper amounts. 

Whenever a lack of one of the foods occurs, the process of digestion is 

57 



retarded, and if this is accompanied by an excess of other food constituents, the 
digestion may become abnormal, which will result in physiological troubles. For 
this reason it is important that fertilizer should be applied in well balanced 
formulas. 

For instance, if clear nitrates are added a quick growth results, but the tissues 
produced are liable to be unhealthy. With the rapidly growing fruit trees, in the 
sands of Florida unbalanced fertilizers quickly produce abnormal results, and 
the same action occurs to a less marked degree with our slower growing trees 
of the northern states. 

Occasionally the foliage of trees becomes spotted with whitish or yellow 
markings. This is attributed to indigestion and it shows an excess of food 
rather than a lack of it. When trees have been cut and new shoots spring up, 
the leaves are apt to have these calico markings, because the large roots of the 
old trees supply more food than the leaves of the new shoots can digest. 

When trees are making a slow growth, nitrates should be added. Phos- 
phorus is necessary to ripen the tissues, and potassium is a vital agent in the 
manufacturing of starch. Humus is a very essential ingredient of the soil for 
the growth of plant life. Humus contains more or less food, but it is not directly 
a food itself. It is composed of fibre from partially decomposed plant tissues, 
and it serves a very vital purpose in the retaining of plant foods in the soil. 
Whenever a good supply of humus is present in the soil, trees have little diffi- 
culty in finding ample food, but when humus is absent the soil is unable to retain 
lho?e materials which trees require. For this reason some soils require the addi- 
tion of well-rotted manure, leaf mould, or other decayed vegetable matter, 
merely for the fibre which is contained in these dressings. Of course any food 
present will make the humus all the more efficient. 

Mechanical Injuries 

We all know how trees are subjected to injuries and wounds which cause 
disfigurement. Many of these may be avoided by proper precautions and pro- 
tective laws. 

Much harm is done to street trees by the teeth of horses and the contact of 
passing vehicles. Trees especially exposed to such injuries, and young trees in 
particular, should be protected by guards. Care should be taken that the guards 
are large enough to permit room for growth, otherwise the guards themselves 
may eventually damage the trees severely, and this often happens. 

In many communities where there are no laws to prohibit it, storekeepers 
and merchants fasten signs to trees. These signs are not only disfigurements, 
but they are responsible for many cavities. Placards and bill posters are also 
very objectionable, and good citizens should protect their communities from 
these nuisances by the enactment of efficient laws to be carefully enforced. 

Electric light and telephone wires are probably responsible for the largest 
amount of damage. Such wires are either attached to the trees or so placed that 
chafing results. 

Frequently it is really desirable to have wires attached to trees in order to 
avoid unsightly poles. This may be done in such a way that little or no harm 
will result. Only too frequently, however, wires are wound about trees as a 
means of fastening. Either total or partial girdling is bound to result. The one 
will quickly cause death to the entire tree, and the other will kill the bark at the 
points of contact, and cavities will form later. When it is desirable to fasten 
wires to trees, it is best to pass bolts directly through the trunks. The wires 
may be fastened to the bolts, using effective means of insulation, and, if properly 
done, no injury will follow. 

Especially to be deplored and fought against is the cutting of limbs by wire 
companies in order to make room for wires. Many such corporations have no 
heart, and avenues of beautiful trees are ruthlessly made unsightly, merely 
because it is cheaper to cut a path for the wires than to avoid the trees or attach 
the wires to the trees by insulated bolts properly applied. Many cities have 
forced their wire companies to make a proper adjustment of wires, and other 
cities and towns should prepare themselves to enforce such protective rneasures. 

38 



A tree warden or deputy assistant should be detailed to this work with sufficient 
authority to enforce the work done according to his direction. It is evident that 
such a man should be equipped with good judgment and a fair knowledge of tree 
life. 

Much trouble and danger may be avoided by gathering the wires into one 
cable. Better still is the method of burying the wires in underground conduits. 
This also does away with poles. 

A large amount of damage is annually done to trees by electricity from live 
wires. Even when originally insulated, the protective covering is easily chafed 
off by contact, and during wet weather a film of water is formed over the tree 
which furnishes a circuit with the ground. 

There are two kinds of damage done to trees by electricity from wires. If 
the wire contains an alternating current, such as is generally used for lighting, 
the polarity alternates very rapidly and severe burning occurs, producing an ugly 
wound. This, however, is local. The burning does not extend beyond the point 
of contact, as the current is dissipated over the moisture on the tree. When, 
however, wet trees are touched by wires carrying direct currents, such as are 
used in trolley wires and power cables, the entire cambium may be killed. In a 
direct current, the polarity is constant, and electrolysis may disintegrate the 
protoplasm throughout the trees thus charged, and the specimens actually become 
electrocuted. This action does not always occur, as ordinarily a trolley wire will 
merely burn a wet tree at the point of contact, just as an alternating current 
acts ; but in cases of reversed polarity, which sometimes occurs, the trees are 
also burned at the base where they come in contact with the ground. 

Lightning does considerable damage to some trees, while others are never 
injured. Those trees which contain an excess of fats and oils, such as beeches 
and birches, are never struck by lightning. 

A lightning bolt may rend a tree in fragments or it may do very little harm. 
Occasionally a stroke of lightning will do little or no visible harm to a tree, and 
yet diffuse itself through the tissues in such a way that the entire cambium is 
killed. After a tree has been damaged by lightning, it is best to wait until the 
following spring before any attempt is made to repair it, as the cambium may 
have been killed in this way. If the tree produces a spring growth, the repairing 
should then be done. 

Sometimes trees are damaged by earth discharges. The electrical potential 
between the earth and the atmosphere is frequently reversed, and at such times 
earth discharges may be given off from wet trees. 

Dr. Geo. E. Stone of the Massachusetts Agricultural College, who has made 
a deep study of the subject of electricity and its relation to plant life, and to 
whom we are indebted for our information, states that earth discharges are 
accompanied by peculiar sounds resembling those caused by throwing damp 
clothes against hard surfaces. The foliage quickly wilts after these discharges, 
splitting is generally found to have occurred, and many limbs die. 

Bacteria 

A very important part is played by the action of certain economic kinds of 
bacteria upon tree life. Most of these are friends, but some are enemies. A few 
kinds are very important. 

The nitrifying bacilli which live in the nodules on the roots of legumes carry 
on a symbiotic relation with their hosts, procuring nitrogen from the air, and 
furnishing it to the roots in exchange for starch. There are also denitrifying 
bacilli which live in cold, damp soils and liberate nitrogen in their endeavor to 
obtain oxygen. These rapidly waste the nitrogen supply of the soil and are 
therefore enemies of trees. When the soil is drained and aerated their action 
ceases. 

Bacteria often feed on decaying tissue, especially in wet cavities, and their 
action does much to enlarge such cavities. 

Fire blight is distinctly a bacterial disease, most prevalent on fruit trees. It 
attacks young shoots and the tips of branches. It quickly runs through the 

39 



tissues, destroying them in a night and leaving the leaves perfectly black. This 
disease is probably spread by bees which inoculate the blossoms. 

The only remedy for fire blight is gained by removing the diseased wood 
and carefully burning it. The infested branches should be cut considerably below 
the trouble. 

Fungous Diseases 

Fungi are low orders of plant life containing none of the green coloring 
matter which we call chlorophyll, and as they have, therefore, no means of man- 
ufacturing starch, they arc obliged to procure it ready made. To be absolutely 
correct, it would be more true to say that as they are able to procure starch it is 
not necessary for them to manufacture it, and therefore they are not provided 
with chlorophyll. This is an expression of the old lavv that "use makes and 
disuse does away with." 

There are two distinct classes of fungi. Saprophitic fungi live on dead 
tissue and therefore do no harm. In fact, they have an important economic 
value as scavengers of dead vegetable tissue. If different agencies, such as 
fungi, bacteria, oxidation, etc., did not destroy dead vegetable products, they 
would petrify, and soon all the plant food in the world would become unavail- 
able. Thus, saprophitic fungi do their part in furnishing growing trees with 
humus and plant food. We have also previously seen how the symbiotic fungus, 
mycorhiza, helps to directly feed certain trees. 

Parasitic fungi live on growing tissues and destroy them. A large amount 
of tree growth is annually killed by parasitic fungi, and everywhere trees are 
more or less severely damaged by many different kinds. 

The main body of a fungus is composed of what is termed mycelium. This 
is merely a mass of interweaving threads called hyphae. Under proper condi- 
tions, fruiting bodies are given off, which bear spores. The spores are very 
minute and serve the same functions to fungi as seeds do to higher forms. The 
fruiting bodies appear on the surface of the host and are the only portions gen- 
erally seen. They take on characteristic shapes and structures according to the 
variety of fungus, some appearing as cups, some as round balls, etc., and they 
show a variety of colors and sizes, some being large but most of them very 
minute. The mushrooms and toadstools are merely fruiting bodies, and are the 
kind we are most familiar with, although not necessarily the most important. 
Yeast is a fungus, used in making bread because the gas it generates causes the 
dough to rise. Moulds and mildews are also fungi. 

Different fungi attack various parts of trees, some living upon the roots, 
some upon the trunk and branches, others upon the leaves, and still others con- 
fine themselves to the fruit. Some may attack all the tissues. 

Certain fungi require alternate hosts. That is, part of their life history is 
carried on in one tree and part in another, which is an important point in their 
control. For instance, the apple rust is found in the so-called cedar apples on 
cedar trees, and another rust requires both the larch and poplar for its develop- 
ment. If, then, one of these hosts is prohibited from certain vicinities, the dis- 
ease will be controlled, and this method may be practiced in severe cases. 

The fungi which attack the woody parts of a tree are the most difficult to 
control, as the mycelium buries itself in the tissues and is not reached by spray- 
ing. Some fungi may infest a tree for fifty years before any fruiting bodies 
appear. The spores gain entrance to the host through wounds on the bark, and if 
a tree is kept sound and in strong health it is not liable to be attacked. 

The agaricus fungus attacks the live roots of many kinds. The fruiting 
body has a mushroom structure and is, therefore, far larger than the fruits of 
most fungi. In fact, it is one of the very few parasitic fungi to take the mush- 
room form. 

Most of the parasitic fungi which attack the wood and bark do not form 
large fruiting bodies. They eat into the tissues and may produce large scars. 
Of these, canker, black rot, nectria, and black knot, do the most damage. A new 
fungus has recently appeared on the chestnut, which is doing an appalling amount 
of damage in certain districts. This feeds in the cambium and it is therefore 
not controlled by spraying. 

40 



Those fungous diseases which attack the leaves and fruit may generally be 
controlled by spraying, but if not prevented they are often responsible for much 
damage. Leaves are very subject to scab, pink mould, rust, leaf spot, blight, and 
various other diseases. 

Solutions of copper have proved to be a remedy for fungous troubles. If 
applied in an uncombined form, these will destroy the host as well as the disease, 
but by combining sulphate of copper with lime, in the form of Bordeaux mixture, 
we produce a very safe and successful fungicide. 

Bordeaux mixture should be carefully made. The "3-4-50 solution" is suffi- 
ciently strong. Three pounds of copper sulphate should be dissolved in 25 gallons 
of water, and four pounds of fresh burned slone lime, very carefully slacked, 
using only the large lumps, should then be diluted with water to make twenty-five 
gallons of milk of lime. After these materials have stood twenty-four hours, 
they should be poured together carefully and simultaneously into a third barrel 
through a cloth strainer. When sprayed upon the trees, this will entirely con- 
trol many of the most injurious fungi. 

Insects 

Entomology is a broad study in itself, and we will consider it briefly, merely 
touching upon those insects which frequently do considerable damage to shade 
trees and forests, and describing the best methods of control. Those insects 
which ravage fruit trees are dealt with under the separate subject of fruit 
growing. 

Insects are known biologically as hexapoda, or six-footed, air-breathing 
arthropoda. Only a very few insects are true bugs, but all bugs are insects. All 
insects undergo a metamorphosis, the amount of which varies with each species 
and variety. That is, during its life cycle, an insect passes through various 
stages, in each of which it may possess a totally distinct structure from its 
previous or next succeeding form. 

A thorough knowledge of the different stages in the life history of insect 
enemies is very important in combatting them, as the majority are only damaging 
in one period, and most of them can only be controlled at certain stages. 

In view of the remedies and methods employed against injurious insects, we 
may conveniently classify insect life under three heads, namely: leaf eating, 
sucking and boring insects. This will include the most important insect enemies 
of trees, and therefore answer our purpose. 

The leaf eating insects, namely, those which pass certain stages of their life 
histories in the caterpillar or larva form, are easily controlled by poisoning their 
food. Caterpillars and other larvae are equipped with chewing mouth parts, and 
obtain their sustenance by devouring the foliage. If, then, we spray the leaves 
with poisonous chemicals, the insects are destroyed, but this treatment must be 
administered with caution. 

It will at once be seen that our problem is to destroy the protoplasm of the 
insect without injury to the protoplasm of the tender growing leaves. Arsenical 
poisons are very powerful, and of these, arsenate of lead has proved the best 
for this purpose. It is made by combining acetate of lead with arsenate of soda 
in such a way that the arsenic becomes insoluble in water. For this reason it 
may, if properly made, be applied at any reasonable strength without danger of 
scorching the foliage. It is, however, soluble in the weak acids of insect diges- 
tion, hence its value as an insecticide. It possesses the additional virtue of cling- 
ing to the leaves for a long time. By spraying with this chemical, we are able 
to protect our trees from leaf-eating insects, and such a material is called a 
stomach poison. 

When spraying, the materials should fall upon the foliage in the form of a 
mist, so that tiny particles will be everywhere present on the leaves, but the 
leaves should not be allowed to become wet and drip. From two to eight pounds 

41 



of arsenate o( lead should be used with fifty gallons of water. The strengfth 
should vary according to the size and resistance of the larvae. 

When fungous diseases are also present, the arsenate of lead may be diluted 
in Bordeaux mixture instead of water, thus making a combined fungicide and 
insecticide, and one spraying will answer the dual purpose. 

Sucking insects must be combatted in a different way. They settle down 
early in life, and each inserts a proboscis into the sap wood. By this means the 
vital juices are extracted. It is evident that we cannot poison their food, and 
therefore we must kill them by contact. Oily preparations will form a film over 
them and thus kill them by suffocation. If they are naked, soft-bodied insects, 
the matter is very easy, as their breathing pores are easily stopped and they 
quickly suffocate. 

If this spraying is done in the summer, certain oil preparations must be used 
which will not damage the foliage. 

The scale insects protect themselves by forming a scale covering, and are 
therefore so resistant that, in order to destroy them, we are obliged to spray 
in the winter time when the trees are dormant, as any material sufficiently pow- 
erful to kill the insects under their scale covering in summer, will also kill the 
foliage and injure the trees. 

The soluble or miscible oils which are offered in the market to-day are far 
more easily handled than the old lime-sulphur solutions formerly used for this 
purpose. They may also be used, in a more diluted form, in the summer time, 
for the naked sucking insects. Such materials are called contact poisons. 

Of the boring insects, those which do the most damage bore into the bark 
and wood where spraying will not affect them. A wood borer may be killed by 
running a soft wire into the hole until the larva is pierced. Or if carbon bi-sul- 
phide is squirted in and the hole stopped up, the liquid will become a gas and the 
larva suffocated. 

The bark borers work in the cambium and are very liable to girdle the trees. 
The shot-hole borer is so called because of the many holes made in the bark by 
the adult beetles as they emerge. When such holes appear, the damage has been 
done, and the affected trees should be cut down as soon as noticed, and burned 
immediately. Such trees cannot be saved, and after the first holes appear, the 
beetles continue to come out and fly to other trees. Thus hasty action is neces- 
sary to destroy the beetles in the infested trees, in order to save surrounding 
trees. These borers are not apt to attack sound, healthy specimens. 

SAN JOSE SCALE. 

This insect, which has been called "the mighty atom," was imported from 
China into the San Jose Valley of California. Since then it has spread over the 
country like fire, and within a very few years every fruit tree in North America 
which is not protected will be killed by the ravages of this tiny sucking insect. 
Many of the shrubs and some of the shade trees are also affected, and it is 
somewhat feared that the scale may become more prevalent on shade trees as 
time advances. 

The scale is not easily seen by the naked eye, being considerably smaller 
than the head of a pin. It is circular, and brown or brownish black. About the 
middle of June the yellow young commence to be born alive, several appearing 
each day for a month or more, and by that time the first born have become 
adult, and are themselves reproducing. This process is kept up until cold 
weather, and if all the family produced by one female insect during the summer 
should live, by frost time the family would number over 3,000,000,000. 

The young insects crawl around for several days and then each inserts a 
long proboscis into the sap wood, and, if a female, it remains in that spot the 
rest of its life. Waxy secretions are thrown off from its back and this forms 
the scale cover. In the fall the male insects emerge, possessing wings. In the 
winter, only part of the females remain alive under their scales. The young are 

42 



spread by being carried on the feet of birds during the summer, and on nursery 
stock. 

As the young are constantly appearing, it is impossible to control this pest 
during the growing season, as any practical means of killing the insects beneath 
the scales will also injure the foliage. The trees should be sprayed in the fall 
after the leaves have dropped. In very severe cases it is best to spray again 
late in the winter. Lime-sulphur solution is very effective, but corrosive and 
extremely disagreeable to make and handle. The miscible oils are very easy 
to apply, effective, and safe if properly used. New chemical preparations of lime 
and sulphur are appearing on the market, and these may prove very desirable. 

OYSTER SHELL SCALE. 

The scale covering of this insect closely resembles a very small oyster shell, 
from 1-16 to 3-16 of an inch in length. It resembles the mussel shell even more 
closely, and is gray or brown in color. The ash, poplar, willow, and many of 
the shrubs, as well as the apple and pear, are commonly affected. 

In winter, under each female scale, is the dead insect and from two to eight 
dozen yellow eggs. The eggs all hatch about the first of June, a^id the yellow 
young crawl around for a few days, then settle down and live in the same way 
as the San Jose scales, except that there is only one or possibly two broods 
during the summer. 

During the first two weeks in June, when the young are unprotected, spray 
with whale oil soap, one pound to six gallons of water ; or with one of the 
miscible oils greatly diluted according to the material used. Two sprayings, ten 
days apart, are most effective. The oyster shell scale may also be sprayed in the 
winter in the same way the San Jose scale is treated, but the winter sprayings 
are not as effective as with the San Jose scale and the summer spraying is pre- 
ferred when possible. 

SCURFY SCALE. 

This insect is very similar to the oyster shell scale, and feeds on the same 
trees. The scale is a little different in form, and the eggs and young are purple. 
The treatment is the same as for the oyster shell scale. 

PLANT LICE OR APHIDS. 

These, also, are sucking insects, but ihey have no scale covering. The bod- 
ies are soft, and yellow, green, or black in color, either with or without wings. 
Some of them are wooly. 

The young are born alive, but, with the exception of the last brood, they 
are produced from unfertilized eggs, which process is called parthenogenesis, 
and is very unusual throughout the entire animal kingdom. All the young pro- 
duced during the summer are females, and each in turn produces about one 
hundred offspring. If all the offspring from one female insect during a sum- 
mer should live, the number would amount to about 1,000,000,000,000,000,000. 
The last brood, produced just previous to cold weather, is partly composed of 
males. This brood lays fertilized eggs which pass the winter. 

On the upper side of the abdomen of an aphis, two tubes are born which 
secrete a sweet, sticky substance called honey dew. We often see ants swarm- 
ing over a tree for this honey dew, of which they are very fond. The ants do 
no harm to the tree. They often carry the eggs of the aphids into their nests 
under ground, and when the insects are born, the ants care for them and feed 
them for the honey dew produced, in the same way as we keep 
cows. The leaves of trees often become coated and sticky with this honey 
dew, which is liable to become infested with a fungus covering the leaves with 
a black substance resembling soot. Thus, the plant lice injure trees in two 
ways. The insects, themselves, suck the juices from the leaves, causing them 
to curl, and the fungus, although a secondary trouble, stops up the stomata 
and produces suffocation, as well as keeping the sunlight from reaching the 
chlorophyll. 

43 



The plant lice may be controlled by spraying in the growing season with 
whale oil soap, or dilute micible oils. 

TUSSOCK MOTH. 

This insect, like all the moths and butterflies, has a complete metamor- 
phosis. The damage to trees is done in the caterpillar form, and the pest often 
becomes very serious. 

The eggs are laid in the fall, on the old cocoons, just after the females 
emerge, and the cocoons are generally attached to the bark of the trees. The 
winter is passed in the egg stage, and in the spring the caterpillars crawl to 
the leaves and devour them. In early July the full grown caterpillars make 
their cocoons. There are two broods. 

The tussock moth may be combated in two years. The cocoons with the 
egg clusters may be picked off any time during the winter, and burned ; or treated 
with creosote to prevent hatching. Or the foliage may be sprayed with arsenate 
of lead. If the trunks of those trees which have not been affected are banded 
with a sticky substance, such as crude tanglefoot, the caterpillars will be unable 
to ascend. 

GYPSY MOTH. 

These are only found in a comparatively small locality in this country, but 
where present, they are responsible for frightful damage. The gypsy moths 
were imported from Europe into Med ford, Massachusetts, by an experimenting 
French scientist, endeavoring to produce a tougher silk. Some of his caterpil- 
lars escaped, and the pest, being free of its natural European enemies has 
spread throughout eastern New England. The adult female moths can fly but 
little, therefore the insect spreads slowly. The caterpillars, however, as well 
as the egg clusters, which are laid on any convenient surfac^, may be carried 
by attaching themselves to vehicles, freight trains, etc., etc. 

Gypsy moth caterpillars will devour almost any kind of foliage, and entire 
communities are sometimes stripped bare. Large amounts of money have 
been spent by states, cities, and private owners, endeavoring to control the pest 
and save the trees, in some cases even reaching the amount of $1,000.00 per acre. 

Late in July the eggs are laid in masses about the size of 5-cent pieces, and 
covered with coatings of yellow hairs from the abdomens of the females. These 
egg clusters are depositied on the trunks and lower limbs of trees, in stone 
walls, on houses, amongst debris on the ground, and in fact, anywhere the adult 
moths may alight. The winter is passed in the egg stage, and in the spring the 
caterpillars feed until early July. Then they enter the pupa state, and emerge 
in a few weeks as adult moths. 

If the egg masses are painted with creosote, during the fall and winter, the 
eggs will not hatch. If the trees are banded with narrow strips of burlap, the 
caterpillars will hide under the burlap in the day time, and may be found there 
and killed. If trees are banded with sticky tanglefoot early in the spring, the 
young caterpillars cannot crawl up the trunks. If the trees are sprayed with 
arsenate of lead, the caterpillars are killed. 

It is often necessary to use every possible means of combating the gypsy 
moth. 

BROWN TAIL MOTH. 

This pest was brought from Europe and introduced into about the same 
locality as the gypsy moth. This also feeds on most shade and forest trees. 
It spreads rapidly as the moths are good flyers, and the caterpillars often strip 
the trees of their foliage. 

The eggs are laid on the bark and leaves late in July, and soon hatch. The 
small young caterpillars feed a very little at that time, and then spin silky nests 
at the tips of the uppermost twigs. The winter is passed by the small young 
caterpillars within the nests, and in the spring they crawl out and feed. In 
June they enter the cocoons, and emerge in J^i ^^ ■%-%ev 

The caterpillars shed barbed hairs which ^fyyBf^m^oJLQs^use a severe irri- 
tation to people by entering the skin. Lot Q9 

44 



The brown tail moth nests should be cut off in winter and burned. Some- 
times a spring spraying with arsenate of lead is necessary. 

FALL WEB WORM. 

The caterpillars of this insect feed on the leaves in late summer. They 
are always inside of their nest which is a large silky web, therefore spraying 
will not reach them, as the web is built ahead of them as they proceed. 

The webs should be cut off and burned. 

FOREST TENT CATERPILLAR. 

This receives its name from a resemblance to the apple tree tent caterpillar, 
but the name is not well chosen, as it does not produce a tent, or web nest. 
The egg clusters are banded around the twigs, and the edges of the bands end 
abruptly, while with the apple tent caterpillar the egg clusters are bevelled at 
the ends. 

This insect occasionally gets ahead of its enemies, and at such times it 
does much damage for a year or two. 

It is easily controlled by spraying with arsenate of lead, when the caterpil- 
lars are feeding in the spring. 

CANKER WORM. 

Two kinds of canker worms occur, one in the spring and one in the fall, 
and they are distinct varieties instead of different broods. 

The eggs of the fall canker worm are laid in the fall, while those of the 
spring canker worm are laid in the spring. The feeding is done about the same 
time in the spring. When the fall canker worm caterpillars are frightened, they 
spin a silk thread and lower themselves to the ground. 

If the trees are banded with tanglefoot, both in the fall and spring, most 
of the caterpillars may be caught. If the foliage is sprayed with arsenate of 
lead during the feeding season, the caterpillars will be killed. About four 
pounds of lead to fifty gallons of water is sufficiently strong. 

ELM LEAF BEETLE. 

The larvae of beetles are called grubs instead of caterpillars, and the larva 
of the elm beetle is a wide spread nuisance. 

The insects pass the winter in the form of adult beetles, which hide in 
houses, stables, etc. In the spring the beetles come out and eat small round 
holes in the young leaves. At this time they do no real harm. After the eggs 
are laid, the old beetles die. The eggs are deposited in little clusters of 15 to 20 
or about 600, from each female altogether. In about a week, the young grubs 
hatch and feed on the underside of the elm leaves, which they skeletonize. 
After about three weeks they crawl down the trunks and pupate in crevices near 
the ground, but not in the ground. In a week or more, the beetles emerge. In 
many parts of the country two broods occur. 

Banding the trees with stick substances does no good. When the pupae are 
dormant at the surface of the ground around the trunks, they may be destroyed 
by spraying them with strong whale oil soap. The best method of control is to 
spray the under side of the leaves, as soon as they are full grown, late in May 
or early June, with arsenate of lead at the strength of four or six pounds to 
fifty gallons of water. In very severe cases, the poison may be used stronger. 

Occasionally a second spraying is necessary for the second brood. 

It is very important, in fighting this insect, to spray the under side of the 
leaves using a fine mist. 

Any further information desired, regarding methods of fighting insect 
pests, or advice concerning materials and necessary apparatus, will be gladly 
furnished by the Boston Nature Bureau. 

45 ..;..,.:..._.., •. .. 



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